ARHGAP31 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following ARHGAP31 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARHGAP31 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.

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***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu94434 XM_017006955.1
Latest version!
Homo sapiens Rho GTPase activating protein 31 (ARHGAP31), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu24028 NM_020754.4
Latest version!
Homo sapiens Rho GTPase activating protein 31 (ARHGAP31), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu38079 XM_006713714.3
Latest version!
Homo sapiens Rho GTPase activating protein 31 (ARHGAP31), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu24028 NM_020754.3 Homo sapiens Rho GTPase activating protein 31 (ARHGAP31), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

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

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

  • Reference Sequences (Refseq)
    CloneID OHu94434
    Clone ID Related Accession (Same CDS sequence) XM_017006955.1
    Accession Version XM_017006955.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3843bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 31 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000003.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
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    181
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    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
    ATGCACGCCC GGAACCTGGC CCTGGTGTGG GCGCCAAACC TCCTCAGGTC TAAAGAAATT 
    GAAGCCACTG GTTGCAATGG AGATGCAGCC TTCCTTGCAG TCCGGGTCCA GCAGGTGGTG
    ATTGAGTTCA TATTGAATCA TGTAGATCAA ATCTTTAACA ACGGTGCACC TGGGTCTCTG
    GAGAATGATG AAAACCGGCC CATCATGAAG AGCCTGACCT TGCCAGCCCT CTCCCTGCCC
    ATGAAGCTGG TGAGCCTTGA GGAAGCTCAA GCCCGCAGCC TGGCCACTAA CCATCCTGCT
    CGCAAGGAAA GGAGGGAGAA CAGCCTGCCT GAGATTGTCC CTCCCATGGG CACCCTCTTC
    CACACTGTCC TTGAGTTACC AGACAACAAG CGAAAGCTCT CCAGTAAATC AAAGAAGTGG
    AAATCAATAT TTAACCTGGG ACGTTCTGGA TCAGACTCCA AATCAAAACT GAGTAGAAAT
    GGGAGTGTAT TTGTGAGAGG ACAGAGGCTC TCGGTGGAAA AGGCTACTAT CCGACCAGCT
    AAAAGCATGG ACTCACTATG TTCAGTGCCT GTGGAAGGAA AAGAAACCAA GGGAAATTTC
    AATCGAACAG TTACCACCGG TGGATTTTTC ATTCCAGCAA CAAAGATGCA CTCCACCGGC
    ACCGGCAGCT CATGTGACCT CACCAAGCAG GAGGGCGAAT GGGGCCAGGA GGGGATGCCT
    CCCGGGGCTG AGGGTGGCTT TGATGTGAGC AGTGATCGCA GCCATCTCCA GGGCGCTCAG
    GCCCGGCCCC CACCGGAACA GCTGAAGGTT TTCCGGCCTG TTGAGGATCC GGAGAGCGAG
    CAAACAGCCC CAAAGATGTT GGGTATGTTC TACACTTCGA ACGACAGCCC TAGCAAATCC
    GTCTTCACCA GCAGCCTCTT CCAGATGGAG CCCTCGCCGC GTAACCAGCG CAAGGCGCTG
    AACATCTCCG AGCCCTTTGC GGTATCTGTG CCGCTCCGCG TGTCCGCAGT CATCAGCACC
    AACAGCACGC CGTGCAGAAC ACCCCCGAAG GAGCTGCAGT CTCTTTCCAG CCTGGAAGAG
    TTTTCTTTTC ATGGATCAGA GAGCGGAGGC TGGCCAGAAG AAGAGAAACC GCTGGGAGCT
    GAGACTTCTG CAGCTTCTGT ACCTAAGAAG GCAGGTCTTG AGGATGCCAA GGCAGTACCT
    GAAGCACCGG GGACAGTGGA ATGCAGCAAA GGCCTGTCCC AGGAGCCAGG CGCCCACCTG
    GAGGAGAAGA AAACCCCAGA AAGCTCCTTG AGCTCTCAAC ATTTAAATGA ATTAGAGAAG
    AGGCCAAATC CGGAGAAGGT GGTGGAGGAG GGACGAGAGG CTGGTGAGAT GGAGTCCAGC
    ACCCTGCAGG AGAGCCCCAG GGCCAGAGCC GAAGCTGTGC TTCTCCATGA GATGGATGAA
    GATGATCTGG CCAATGCCCT GATCTGGCCT GAGATTCAAC AGGAGCTGAA AATCATTGAA
    TCTGAGGAGG AGCTCTCATC GTTGCCACCT CCTGCTCTGA AGACCAGCCC AATTCAGCCT
    ATTCTCGAGT CGAGTCTGGG GCCCTTTATT CCCTCAGAGC CTCCTGGGAG CTTGCCTTGT
    GGCTCCTTCC CTGCTCCAGT CTCCACCCCT CTGGAGGTGT GGACTAGGGA TCCAGCCAAT
    CAGAGCACAC AGGGGGCTTC CACAGCAGCC AGCAGAGAGA AGCCGGAACC TGAGCAGGGC
    CTGCACCCAG ACCTCGCCAG CCTGGCTCCT CTGGAAATAG TTCCTTTTGA GAAGGCATCT
    CCACAAGCAA CAGTGGAAGT AGGAGGCCCA GGCAATCTGT CTCCTCCACT CCCACCTGCT
    CCTCCCCCTC CAACTCCTCT GGAGGAGTCA ACTCCAGTCC TGCTTTCAAA GGGCGGCCCG
    GAAAGAGAAG ACTCATCCAG GAAATTGAGG ACAGATCTCT ACATAGACCA GCTGAAGTCC
    CAAGACAGCC CTGAGATCTC TAGCCTCTGT CAGGGAGAGG AGGCAACCCC AAGACACAGT
    GACAAGCAAA ATTCAAAGAA TGCTGCTTCT GAGGGGAAAG GCTGTGGTTT TCCAAGCCCA
    ACCAGGGAGG TTGAGATCGT CTCACAAGAA GAGGAGGATG TAACCCATTC AGTACAGGAG
    CCTTCAGACT GTGACGAAGA TGACACTGTG ACAGACATTG CCCAGCATGG CCTGGAGATG
    GTGGAGCCCT GGGAGGAACC CCAGTGGGTG ACGAGTCCCC TTCACTCTCC CACCCTGAAA
    GACGCGCACA AGGCCCAGGT ACAGGGCCTT CAGGGTCACC AGTTGGAGAA GAGGCTTTCC
    CACAGGCCCA GCCTTCGCCA GAGCCATTCT CTAGATAGCA AACCCACGGT TAAAAGCCAG
    TGGACTCTCG AGGTTCCCTC CTCCAGCAGC TGTGCTAATC TTGAAACAGA GAGGAATTCT
    GACCCTCTTC AGCCCCAGGC ACCCAGGAGA GAGATTACTG GATGGGATGA GAAAGCCCTG
    AGGTCCTTCA GAGAGTTCTC TGGCCTGAAA GGGGCAGAGG CTCCTCCCAA CCAGAAGGGA
    CCAAGTGGTG TGCAACCCAA CCCAGCAGAA ACCAGCCCCA TCAGCCTAGC AGAGGGAAAG
    GAGCTAGGGA CACACCTGGG GCACAGCAGT CCACAGATTA GGCAAGGTGG TGTTCCTGGG
    CCAGAGAGCA GCAAGGAGAG TTCACCCAGC GTGCAGGACA GCACTTCGCC TGGAGAGCAC
    CCCGCAAAGT TACAGCTAAA GAGCACAGAG TGTGGGCCCC CAAAAGGGAA AAACAGGCCT
    TCTTCCCTCA ACTTGGACCC TGCCATTCCC ATTGCTGACC TCTTCTGGTT TGAGAATGTG
    GCCTCATTTA GTTCACCTGG AATGCAGGTC TCTGAGCCAG GAGACCCAAA GGTCACATGG
    ATGACCTCAT CTTACTGTAA AGCAGACCCC TGGAGGGTTT ACTCCCAGGA CCCCCAGGAC
    CTGGACATTG TTGCTCATGC ACTGACAGGC CGCCGTAACT CAGCTCCTGT GAGTGTGTCA
    GCTGTGAGAA CCTCCTTCAT GGTCAAAATG TGCCAGGCCA GGGCGGTCCC AGTCATCCCT
    CCCAAGATTC AGTACACCCA GATCCCACAG CCCCTGCCCT CTCAGAGCTC AGGGGAGAAT
    GGGGTTCAGC CTCTGGAGAG GAGCCAGGAG GGACCCAGCT CAACCAGTGG GACCACTCAG
    AAACCTGCCA AAGATGATTC TCCCTCCTCC CTGGAAAGCT CAAAGGAAGA AAAACCAAAG
    CAAGATCCCG GAGCCATTAA GTCCTCACCA GTGGATGCCA CTGCACCCTG CATGTGCGAG
    GGACCTACCC TTTCTCCAGA ACCAGGCTCG TCTAACCTGC TCTCCACCCA GGATGCAGTA
    GTGCAATGCA GAAAGCGCAT GTCAGAGACA GAGCCATCTG GGGACAACCT TCTTTCTTCA
    AAACTAGAGC GACCATCTGG GGGTTCTAAG CCTTTCCACA GGTCAAGGCC AGGAAGACCT
    CAGAGCCTAA TCTTATTCAG TCCTCCTTTC CCCATTATGG ACCACCTGCC CCCTTCATCC
    ACAGTGACAG ATTCCAAGGT CCTGCTGTCC CCTATCAGAA GTCCCACCCA GACAGTTTCC
    CCTGGCCTTC TTTGTGGAGA GTTGGCAGAA AACACATGGG TCACACCAGA AGGGGTTACA
    CTTAGGAATA AAATGACCAT CCCTAAGAAT GGCCAGAGAC TAGAGACCTC AACCAGCTGT
    TTTTACCAGC CTCAGCGGAG ATCAGTAATT CTGGATGGAA GAAGTGGGAG GCAAATAGAA
    TGA

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

    RefSeq XP_016862444.1
    CDS964..4806
    Translation

    Target ORF information:

    RefSeq Version XM_017006955.1
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 31 (ARHGAP31), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017006955.1

    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
    ATGCACGCCC GGAACCTGGC CCTGGTGTGG GCGCCAAACC TCCTCAGGTC TAAAGAAATT 
    GAAGCCACTG GTTGCAATGG AGATGCAGCC TTCCTTGCAG TCCGGGTCCA GCAGGTGGTG
    ATTGAGTTCA TATTGAATCA TGTAGATCAA ATCTTTAACA ACGGTGCACC TGGGTCTCTG
    GAGAATGATG AAAACCGGCC CATCATGAAG AGCCTGACCT TGCCAGCCCT CTCCCTGCCC
    ATGAAGCTGG TGAGCCTTGA GGAAGCTCAA GCCCGCAGCC TGGCCACTAA CCATCCTGCT
    CGCAAGGAAA GGAGGGAGAA CAGCCTGCCT GAGATTGTCC CTCCCATGGG CACCCTCTTC
    CACACTGTCC TTGAGTTACC AGACAACAAG CGAAAGCTCT CCAGTAAATC AAAGAAGTGG
    AAATCAATAT TTAACCTGGG ACGTTCTGGA TCAGACTCCA AATCAAAACT GAGTAGAAAT
    GGGAGTGTAT TTGTGAGAGG ACAGAGGCTC TCGGTGGAAA AGGCTACTAT CCGACCAGCT
    AAAAGCATGG ACTCACTATG TTCAGTGCCT GTGGAAGGAA AAGAAACCAA GGGAAATTTC
    AATCGAACAG TTACCACCGG TGGATTTTTC ATTCCAGCAA CAAAGATGCA CTCCACCGGC
    ACCGGCAGCT CATGTGACCT CACCAAGCAG GAGGGCGAAT GGGGCCAGGA GGGGATGCCT
    CCCGGGGCTG AGGGTGGCTT TGATGTGAGC AGTGATCGCA GCCATCTCCA GGGCGCTCAG
    GCCCGGCCCC CACCGGAACA GCTGAAGGTT TTCCGGCCTG TTGAGGATCC GGAGAGCGAG
    CAAACAGCCC CAAAGATGTT GGGTATGTTC TACACTTCGA ACGACAGCCC TAGCAAATCC
    GTCTTCACCA GCAGCCTCTT CCAGATGGAG CCCTCGCCGC GTAACCAGCG CAAGGCGCTG
    AACATCTCCG AGCCCTTTGC GGTATCTGTG CCGCTCCGCG TGTCCGCAGT CATCAGCACC
    AACAGCACGC CGTGCAGAAC ACCCCCGAAG GAGCTGCAGT CTCTTTCCAG CCTGGAAGAG
    TTTTCTTTTC ATGGATCAGA GAGCGGAGGC TGGCCAGAAG AAGAGAAACC GCTGGGAGCT
    GAGACTTCTG CAGCTTCTGT ACCTAAGAAG GCAGGTCTTG AGGATGCCAA GGCAGTACCT
    GAAGCACCGG GGACAGTGGA ATGCAGCAAA GGCCTGTCCC AGGAGCCAGG CGCCCACCTG
    GAGGAGAAGA AAACCCCAGA AAGCTCCTTG AGCTCTCAAC ATTTAAATGA ATTAGAGAAG
    AGGCCAAATC CGGAGAAGGT GGTGGAGGAG GGACGAGAGG CTGGTGAGAT GGAGTCCAGC
    ACCCTGCAGG AGAGCCCCAG GGCCAGAGCC GAAGCTGTGC TTCTCCATGA GATGGATGAA
    GATGATCTGG CCAATGCCCT GATCTGGCCT GAGATTCAAC AGGAGCTGAA AATCATTGAA
    TCTGAGGAGG AGCTCTCATC GTTGCCACCT CCTGCTCTGA AGACCAGCCC AATTCAGCCT
    ATTCTCGAGT CGAGTCTGGG GCCCTTTATT CCCTCAGAGC CTCCTGGGAG CTTGCCTTGT
    GGCTCCTTCC CTGCTCCAGT CTCCACCCCT CTGGAGGTGT GGACTAGGGA TCCAGCCAAT
    CAGAGCACAC AGGGGGCTTC CACAGCAGCC AGCAGAGAGA AGCCGGAACC TGAGCAGGGC
    CTGCACCCAG ACCTCGCCAG CCTGGCTCCT CTGGAAATAG TTCCTTTTGA GAAGGCATCT
    CCACAAGCAA CAGTGGAAGT AGGAGGCCCA GGCAATCTGT CTCCTCCACT CCCACCTGCT
    CCTCCCCCTC CAACTCCTCT GGAGGAGTCA ACTCCAGTCC TGCTTTCAAA GGGCGGCCCG
    GAAAGAGAAG ACTCATCCAG GAAATTGAGG ACAGATCTCT ACATAGACCA GCTGAAGTCC
    CAAGACAGCC CTGAGATCTC TAGCCTCTGT CAGGGAGAGG AGGCAACCCC AAGACACAGT
    GACAAGCAAA ATTCAAAGAA TGCTGCTTCT GAGGGGAAAG GCTGTGGTTT TCCAAGCCCA
    ACCAGGGAGG TTGAGATCGT CTCACAAGAA GAGGAGGATG TAACCCATTC AGTACAGGAG
    CCTTCAGACT GTGACGAAGA TGACACTGTG ACAGACATTG CCCAGCATGG CCTGGAGATG
    GTGGAGCCCT GGGAGGAACC CCAGTGGGTG ACGAGTCCCC TTCACTCTCC CACCCTGAAA
    GACGCGCACA AGGCCCAGGT ACAGGGCCTT CAGGGTCACC AGTTGGAGAA GAGGCTTTCC
    CACAGGCCCA GCCTTCGCCA GAGCCATTCT CTAGATAGCA AACCCACGGT TAAAAGCCAG
    TGGACTCTCG AGGTTCCCTC CTCCAGCAGC TGTGCTAATC TTGAAACAGA GAGGAATTCT
    GACCCTCTTC AGCCCCAGGC ACCCAGGAGA GAGATTACTG GATGGGATGA GAAAGCCCTG
    AGGTCCTTCA GAGAGTTCTC TGGCCTGAAA GGGGCAGAGG CTCCTCCCAA CCAGAAGGGA
    CCAAGTGGTG TGCAACCCAA CCCAGCAGAA ACCAGCCCCA TCAGCCTAGC AGAGGGAAAG
    GAGCTAGGGA CACACCTGGG GCACAGCAGT CCACAGATTA GGCAAGGTGG TGTTCCTGGG
    CCAGAGAGCA GCAAGGAGAG TTCACCCAGC GTGCAGGACA GCACTTCGCC TGGAGAGCAC
    CCCGCAAAGT TACAGCTAAA GAGCACAGAG TGTGGGCCCC CAAAAGGGAA AAACAGGCCT
    TCTTCCCTCA ACTTGGACCC TGCCATTCCC ATTGCTGACC TCTTCTGGTT TGAGAATGTG
    GCCTCATTTA GTTCACCTGG AATGCAGGTC TCTGAGCCAG GAGACCCAAA GGTCACATGG
    ATGACCTCAT CTTACTGTAA AGCAGACCCC TGGAGGGTTT ACTCCCAGGA CCCCCAGGAC
    CTGGACATTG TTGCTCATGC ACTGACAGGC CGCCGTAACT CAGCTCCTGT GAGTGTGTCA
    GCTGTGAGAA CCTCCTTCAT GGTCAAAATG TGCCAGGCCA GGGCGGTCCC AGTCATCCCT
    CCCAAGATTC AGTACACCCA GATCCCACAG CCCCTGCCCT CTCAGAGCTC AGGGGAGAAT
    GGGGTTCAGC CTCTGGAGAG GAGCCAGGAG GGACCCAGCT CAACCAGTGG GACCACTCAG
    AAACCTGCCA AAGATGATTC TCCCTCCTCC CTGGAAAGCT CAAAGGAAGA AAAACCAAAG
    CAAGATCCCG GAGCCATTAA GTCCTCACCA GTGGATGCCA CTGCACCCTG CATGTGCGAG
    GGACCTACCC TTTCTCCAGA ACCAGGCTCG TCTAACCTGC TCTCCACCCA GGATGCAGTA
    GTGCAATGCA GAAAGCGCAT GTCAGAGACA GAGCCATCTG GGGACAACCT TCTTTCTTCA
    AAACTAGAGC GACCATCTGG GGGTTCTAAG CCTTTCCACA GGTCAAGGCC AGGAAGACCT
    CAGAGCCTAA TCTTATTCAG TCCTCCTTTC CCCATTATGG ACCACCTGCC CCCTTCATCC
    ACAGTGACAG ATTCCAAGGT CCTGCTGTCC CCTATCAGAA GTCCCACCCA GACAGTTTCC
    CCTGGCCTTC TTTGTGGAGA GTTGGCAGAA AACACATGGG TCACACCAGA AGGGGTTACA
    CTTAGGAATA AAATGACCAT CCCTAAGAAT GGCCAGAGAC TAGAGACCTC AACCAGCTGT
    TTTTACCAGC CTCAGCGGAG ATCAGTAATT CTGGATGGAA GAAGTGGGAG GCAAATAGAA
    TGA

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

    CloneID OHu24028
    Clone ID Related Accession (Same CDS sequence) NM_020754.3 , NM_020754.4
    Accession Version NM_020754.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4335bp)
    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 2019-02-23
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 31
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB033030.1, BC112163.1, KF457672.1, AC092981.3 and BM970175.1. This sequence is a reference standard in the RefSeqGene project. On Jan 17, 2014 this sequence version replaced NM_020754.2. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB033030.1, SRR1803616.248913.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGAAGAACA AGGGTGCTAA GCAGAAGCTG AAACGAAAGG GAGCCGCCAG CGCGTTTGGC 
    TGTGACCTGA CGGAGTATCT GGAAAGCTCG GGACAGGATG TTCCATACGT TTTGAAGAGC
    TGTGCAGAAT TTATAGAGAC TCACGGCATC GTGGATGGAA TCTATCGGCT TTCAGGAGTC
    ACCTCAAACA TACAACGGCT AAGGCAAGAG TTTGGCTCAG ATCAATGTCC AGATCTGACA
    AGGGAAGTGT ACCTCCAGGA CATCCACTGT GTGGGCTCGC TTTGCAAGCT CTACTTTAGG
    GAGCTGCCCA ACCCCCTCCT GACTTATGAG CTCTATGAGA AATTCACGGA GGCAGTGTCG
    CATTGCCCTG AAGAAGGCCA ACTGGCCCGA ATCCAAAATG TTATCCAGGA GCTTCCTCCA
    TCCCACTATA GGACCTTGGA ATACCTGATT CGACACCTGG CCCATATCGC CTCCTTCAGC
    AGCAAGACCA ACATGCACGC CCGGAACCTG GCCCTGGTGT GGGCGCCAAA CCTCCTCAGG
    TCTAAAGAAA TTGAAGCCAC TGGTTGCAAT GGAGATGCAG CCTTCCTTGC AGTCCGGGTC
    CAGCAGGTGG TGATTGAGTT CATATTGAAT CATGTAGATC AAATCTTTAA CAACGGTGCA
    CCTGGGTCTC TGGAGAATGA TGAAAACCGG CCCATCATGA AGAGCCTGAC CTTGCCAGCC
    CTCTCCCTGC CCATGAAGCT GGTGAGCCTT GAGGAAGCTC AAGCCCGCAG CCTGGCCACT
    AACCATCCTG CTCGCAAGGA AAGGAGGGAG AACAGCCTGC CTGAGATTGT CCCTCCCATG
    GGCACCCTCT TCCACACTGT CCTTGAGTTA CCAGACAACA AGCGAAAGCT CTCCAGTAAA
    TCAAAGAAGT GGAAATCAAT ATTTAACCTG GGACGTTCTG GATCAGACTC CAAATCAAAA
    CTGAGTAGAA ATGGGAGTGT ATTTGTGAGA GGACAGAGGC TCTCGGTGGA AAAGGCTACT
    ATCCGACCAG CTAAAAGCAT GGACTCACTA TGTTCAGTGC CTGTGGAAGG AAAAGAAACC
    AAGGGAAATT TCAATCGAAC AGTTACCACC GGTGGATTTT TCATTCCAGC AACAAAGATG
    CACTCCACCG GCACCGGCAG CTCATGTGAC CTCACCAAGC AGGAGGGCGA ATGGGGCCAG
    GAGGGGATGC CTCCCGGGGC TGAGGGTGGC TTTGATGTGA GCAGTGATCG CAGCCATCTC
    CAGGGCGCTC AGGCCCGGCC CCCACCGGAA CAGCTGAAGG TTTTCCGGCC TGTTGAGGAT
    CCGGAGAGCG AGCAAACAGC CCCAAAGATG TTGGGTATGT TCTACACTTC GAACGACAGC
    CCTAGCAAAT CCGTCTTCAC CAGCAGCCTC TTCCAGATGG AGCCCTCGCC GCGTAACCAG
    CGCAAGGCGC TGAACATCTC CGAGCCCTTT GCGGTATCTG TGCCGCTCCG CGTGTCCGCA
    GTCATCAGCA CCAACAGCAC GCCGTGCAGA ACACCCCCGA AGGAGCTGCA GTCTCTTTCC
    AGCCTGGAAG AGTTTTCTTT TCATGGATCA GAGAGCGGAG GCTGGCCAGA AGAAGAGAAA
    CCGCTGGGAG CTGAGACTTC TGCAGCTTCT GTACCTAAGA AGGCAGGTCT TGAGGATGCC
    AAGGCAGTAC CTGAAGCACC GGGGACAGTG GAATGCAGCA AAGGCCTGTC CCAGGAGCCA
    GGCGCCCACC TGGAGGAGAA GAAAACCCCA GAAAGCTCCT TGAGCTCTCA ACATTTAAAT
    GAATTAGAGA AGAGGCCAAA TCCGGAGAAG GTGGTGGAGG AGGGACGAGA GGCTGGTGAG
    ATGGAGTCCA GCACCCTGCA GGAGAGCCCC AGGGCCAGAG CCGAAGCTGT GCTTCTCCAT
    GAGATGGATG AAGATGATCT GGCCAATGCC CTGATCTGGC CTGAGATTCA ACAGGAGCTG
    AAAATCATTG AATCTGAGGA GGAGCTCTCA TCGTTGCCAC CTCCTGCTCT GAAGACCAGC
    CCAATTCAGC CTATTCTCGA GTCGAGTCTG GGGCCCTTTA TTCCCTCAGA GCCTCCTGGG
    AGCTTGCCTT GTGGCTCCTT CCCTGCTCCA GTCTCCACCC CTCTGGAGGT GTGGACTAGG
    GATCCAGCCA ATCAGAGCAC ACAGGGGGCT TCCACAGCAG CCAGCAGAGA GAAGCCGGAA
    CCTGAGCAGG GCCTGCACCC AGACCTCGCC AGCCTGGCTC CTCTGGAAAT AGTTCCTTTT
    GAGAAGGCAT CTCCACAAGC AACAGTGGAA GTAGGAGGCC CAGGCAATCT GTCTCCTCCA
    CTCCCACCTG CTCCTCCCCC TCCAACTCCT CTGGAGGAGT CAACTCCAGT CCTGCTTTCA
    AAGGGCGGCC CGGAAAGAGA AGACTCATCC AGGAAATTGA GGACAGATCT CTACATAGAC
    CAGCTGAAGT CCCAAGACAG CCCTGAGATC TCTAGCCTCT GTCAGGGAGA GGAGGCAACC
    CCAAGACACA GTGACAAGCA AAATTCAAAG AATGCTGCTT CTGAGGGGAA AGGCTGTGGT
    TTTCCAAGCC CAACCAGGGA GGTTGAGATC GTCTCACAAG AAGAGGAGGA TGTAACCCAT
    TCAGTACAGG AGCCTTCAGA CTGTGACGAA GATGACACTG TGACAGACAT TGCCCAGCAT
    GGCCTGGAGA TGGTGGAGCC CTGGGAGGAA CCCCAGTGGG TGACGAGTCC CCTTCACTCT
    CCCACCCTGA AAGACGCGCA CAAGGCCCAG GTACAGGGCC TTCAGGGTCA CCAGTTGGAG
    AAGAGGCTTT CCCACAGGCC CAGCCTTCGC CAGAGCCATT CTCTAGATAG CAAACCCACG
    GTTAAAAGCC AGTGGACTCT CGAGGTTCCC TCCTCCAGCA GCTGTGCTAA TCTTGAAACA
    GAGAGGAATT CTGACCCTCT TCAGCCCCAG GCACCCAGGA GAGAGATTAC TGGATGGGAT
    GAGAAAGCCC TGAGGTCCTT CAGAGAGTTC TCTGGCCTGA AAGGGGCAGA GGCTCCTCCC
    AACCAGAAGG GACCAAGTGG TGTGCAACCC AACCCAGCAG AAACCAGCCC CATCAGCCTA
    GCAGAGGGAA AGGAGCTAGG GACACACCTG GGGCACAGCA GTCCACAGAT TAGGCAAGGT
    GGTGTTCCTG GGCCAGAGAG CAGCAAGGAG AGTTCACCCA GCGTGCAGGA CAGCACTTCG
    CCTGGAGAGC ACCCCGCAAA GTTACAGCTA AAGAGCACAG AGTGTGGGCC CCCAAAAGGG
    AAAAACAGGC CTTCTTCCCT CAACTTGGAC CCTGCCATTC CCATTGCTGA CCTCTTCTGG
    TTTGAGAATG TGGCCTCATT TAGTTCACCT GGAATGCAGG TCTCTGAGCC AGGAGACCCA
    AAGGTCACAT GGATGACCTC ATCTTACTGT AAAGCAGACC CCTGGAGGGT TTACTCCCAG
    GACCCCCAGG ACCTGGACAT TGTTGCTCAT GCACTGACAG GCCGCCGTAA CTCAGCTCCT
    GTGAGTGTGT CAGCTGTGAG AACCTCCTTC ATGGTCAAAA TGTGCCAGGC CAGGGCGGTC
    CCAGTCATCC CTCCCAAGAT TCAGTACACC CAGATCCCAC AGCCCCTGCC CTCTCAGAGC
    TCAGGGGAGA ATGGGGTTCA GCCTCTGGAG AGGAGCCAGG AGGGACCCAG CTCAACCAGT
    GGGACCACTC AGAAACCTGC CAAAGATGAT TCTCCCTCCT CCCTGGAAAG CTCAAAGGAA
    GAAAAACCAA AGCAAGATCC CGGAGCCATT AAGTCCTCAC CAGTGGATGC CACTGCACCC
    TGCATGTGCG AGGGACCTAC CCTTTCTCCA GAACCAGGCT CGTCTAACCT GCTCTCCACC
    CAGGATGCAG TAGTGCAATG CAGAAAGCGC ATGTCAGAGA CAGAGCCATC TGGGGACAAC
    CTTCTTTCTT CAAAACTAGA GCGACCATCT GGGGGTTCTA AGCCTTTCCA CAGGTCAAGG
    CCAGGAAGAC CTCAGAGCCT AATCTTATTC AGTCCTCCTT TCCCCATTAT GGACCACCTG
    CCCCCTTCAT CCACAGTGAC AGATTCCAAG GTCCTGCTGT CCCCTATCAG AAGTCCCACC
    CAGACAGTTT CCCCTGGCCT TCTTTGTGGA GAGTTGGCAG AAAACACATG GGTCACACCA
    GAAGGGGTTA CACTTAGGAA TAAAATGACC ATCCCTAAGA ATGGCCAGAG ACTAGAGACC
    TCAACCAGCT GTTTTTACCA GCCTCAGCGG AGATCAGTAA TTCTGGATGG AAGAAGTGGG
    AGGCAAATAG AATGA

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

    RefSeq NP_065805.2
    CDS533..4867
    Translation

    Target ORF information:

    RefSeq Version NM_020754.3
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 31 (ARHGAP31), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_020754.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAAGAACA AGGGTGCTAA GCAGAAGCTG AAACGAAAGG GAGCCGCCAG CGCGTTTGGC 
    TGTGACCTGA CGGAGTATCT GGAAAGCTCG GGACAGGATG TTCCATACGT TTTGAAGAGC
    TGTGCAGAAT TTATAGAGAC TCACGGCATC GTGGATGGAA TCTATCGGCT TTCAGGAGTC
    ACCTCAAACA TACAACGGCT AAGGCAAGAG TTTGGCTCAG ATCAATGTCC AGATCTGACA
    AGGGAAGTGT ACCTCCAGGA CATCCACTGT GTGGGCTCGC TTTGCAAGCT CTACTTTAGG
    GAGCTGCCCA ACCCCCTCCT GACTTATGAG CTCTATGAGA AATTCACGGA GGCAGTGTCG
    CATTGCCCTG AAGAAGGCCA ACTGGCCCGA ATCCAAAATG TTATCCAGGA GCTTCCTCCA
    TCCCACTATA GGACCTTGGA ATACCTGATT CGACACCTGG CCCATATCGC CTCCTTCAGC
    AGCAAGACCA ACATGCACGC CCGGAACCTG GCCCTGGTGT GGGCGCCAAA CCTCCTCAGG
    TCTAAAGAAA TTGAAGCCAC TGGTTGCAAT GGAGATGCAG CCTTCCTTGC AGTCCGGGTC
    CAGCAGGTGG TGATTGAGTT CATATTGAAT CATGTAGATC AAATCTTTAA CAACGGTGCA
    CCTGGGTCTC TGGAGAATGA TGAAAACCGG CCCATCATGA AGAGCCTGAC CTTGCCAGCC
    CTCTCCCTGC CCATGAAGCT GGTGAGCCTT GAGGAAGCTC AAGCCCGCAG CCTGGCCACT
    AACCATCCTG CTCGCAAGGA AAGGAGGGAG AACAGCCTGC CTGAGATTGT CCCTCCCATG
    GGCACCCTCT TCCACACTGT CCTTGAGTTA CCAGACAACA AGCGAAAGCT CTCCAGTAAA
    TCAAAGAAGT GGAAATCAAT ATTTAACCTG GGACGTTCTG GATCAGACTC CAAATCAAAA
    CTGAGTAGAA ATGGGAGTGT ATTTGTGAGA GGACAGAGGC TCTCGGTGGA AAAGGCTACT
    ATCCGACCAG CTAAAAGCAT GGACTCACTA TGTTCAGTGC CTGTGGAAGG AAAAGAAACC
    AAGGGAAATT TCAATCGAAC AGTTACCACC GGTGGATTTT TCATTCCAGC AACAAAGATG
    CACTCCACCG GCACCGGCAG CTCATGTGAC CTCACCAAGC AGGAGGGCGA ATGGGGCCAG
    GAGGGGATGC CTCCCGGGGC TGAGGGTGGC TTTGATGTGA GCAGTGATCG CAGCCATCTC
    CAGGGCGCTC AGGCCCGGCC CCCACCGGAA CAGCTGAAGG TTTTCCGGCC TGTTGAGGAT
    CCGGAGAGCG AGCAAACAGC CCCAAAGATG TTGGGTATGT TCTACACTTC GAACGACAGC
    CCTAGCAAAT CCGTCTTCAC CAGCAGCCTC TTCCAGATGG AGCCCTCGCC GCGTAACCAG
    CGCAAGGCGC TGAACATCTC CGAGCCCTTT GCGGTATCTG TGCCGCTCCG CGTGTCCGCA
    GTCATCAGCA CCAACAGCAC GCCGTGCAGA ACACCCCCGA AGGAGCTGCA GTCTCTTTCC
    AGCCTGGAAG AGTTTTCTTT TCATGGATCA GAGAGCGGAG GCTGGCCAGA AGAAGAGAAA
    CCGCTGGGAG CTGAGACTTC TGCAGCTTCT GTACCTAAGA AGGCAGGTCT TGAGGATGCC
    AAGGCAGTAC CTGAAGCACC GGGGACAGTG GAATGCAGCA AAGGCCTGTC CCAGGAGCCA
    GGCGCCCACC TGGAGGAGAA GAAAACCCCA GAAAGCTCCT TGAGCTCTCA ACATTTAAAT
    GAATTAGAGA AGAGGCCAAA TCCGGAGAAG GTGGTGGAGG AGGGACGAGA GGCTGGTGAG
    ATGGAGTCCA GCACCCTGCA GGAGAGCCCC AGGGCCAGAG CCGAAGCTGT GCTTCTCCAT
    GAGATGGATG AAGATGATCT GGCCAATGCC CTGATCTGGC CTGAGATTCA ACAGGAGCTG
    AAAATCATTG AATCTGAGGA GGAGCTCTCA TCGTTGCCAC CTCCTGCTCT GAAGACCAGC
    CCAATTCAGC CTATTCTCGA GTCGAGTCTG GGGCCCTTTA TTCCCTCAGA GCCTCCTGGG
    AGCTTGCCTT GTGGCTCCTT CCCTGCTCCA GTCTCCACCC CTCTGGAGGT GTGGACTAGG
    GATCCAGCCA ATCAGAGCAC ACAGGGGGCT TCCACAGCAG CCAGCAGAGA GAAGCCGGAA
    CCTGAGCAGG GCCTGCACCC AGACCTCGCC AGCCTGGCTC CTCTGGAAAT AGTTCCTTTT
    GAGAAGGCAT CTCCACAAGC AACAGTGGAA GTAGGAGGCC CAGGCAATCT GTCTCCTCCA
    CTCCCACCTG CTCCTCCCCC TCCAACTCCT CTGGAGGAGT CAACTCCAGT CCTGCTTTCA
    AAGGGCGGCC CGGAAAGAGA AGACTCATCC AGGAAATTGA GGACAGATCT CTACATAGAC
    CAGCTGAAGT CCCAAGACAG CCCTGAGATC TCTAGCCTCT GTCAGGGAGA GGAGGCAACC
    CCAAGACACA GTGACAAGCA AAATTCAAAG AATGCTGCTT CTGAGGGGAA AGGCTGTGGT
    TTTCCAAGCC CAACCAGGGA GGTTGAGATC GTCTCACAAG AAGAGGAGGA TGTAACCCAT
    TCAGTACAGG AGCCTTCAGA CTGTGACGAA GATGACACTG TGACAGACAT TGCCCAGCAT
    GGCCTGGAGA TGGTGGAGCC CTGGGAGGAA CCCCAGTGGG TGACGAGTCC CCTTCACTCT
    CCCACCCTGA AAGACGCGCA CAAGGCCCAG GTACAGGGCC TTCAGGGTCA CCAGTTGGAG
    AAGAGGCTTT CCCACAGGCC CAGCCTTCGC CAGAGCCATT CTCTAGATAG CAAACCCACG
    GTTAAAAGCC AGTGGACTCT CGAGGTTCCC TCCTCCAGCA GCTGTGCTAA TCTTGAAACA
    GAGAGGAATT CTGACCCTCT TCAGCCCCAG GCACCCAGGA GAGAGATTAC TGGATGGGAT
    GAGAAAGCCC TGAGGTCCTT CAGAGAGTTC TCTGGCCTGA AAGGGGCAGA GGCTCCTCCC
    AACCAGAAGG GACCAAGTGG TGTGCAACCC AACCCAGCAG AAACCAGCCC CATCAGCCTA
    GCAGAGGGAA AGGAGCTAGG GACACACCTG GGGCACAGCA GTCCACAGAT TAGGCAAGGT
    GGTGTTCCTG GGCCAGAGAG CAGCAAGGAG AGTTCACCCA GCGTGCAGGA CAGCACTTCG
    CCTGGAGAGC ACCCCGCAAA GTTACAGCTA AAGAGCACAG AGTGTGGGCC CCCAAAAGGG
    AAAAACAGGC CTTCTTCCCT CAACTTGGAC CCTGCCATTC CCATTGCTGA CCTCTTCTGG
    TTTGAGAATG TGGCCTCATT TAGTTCACCT GGAATGCAGG TCTCTGAGCC AGGAGACCCA
    AAGGTCACAT GGATGACCTC ATCTTACTGT AAAGCAGACC CCTGGAGGGT TTACTCCCAG
    GACCCCCAGG ACCTGGACAT TGTTGCTCAT GCACTGACAG GCCGCCGTAA CTCAGCTCCT
    GTGAGTGTGT CAGCTGTGAG AACCTCCTTC ATGGTCAAAA TGTGCCAGGC CAGGGCGGTC
    CCAGTCATCC CTCCCAAGAT TCAGTACACC CAGATCCCAC AGCCCCTGCC CTCTCAGAGC
    TCAGGGGAGA ATGGGGTTCA GCCTCTGGAG AGGAGCCAGG AGGGACCCAG CTCAACCAGT
    GGGACCACTC AGAAACCTGC CAAAGATGAT TCTCCCTCCT CCCTGGAAAG CTCAAAGGAA
    GAAAAACCAA AGCAAGATCC CGGAGCCATT AAGTCCTCAC CAGTGGATGC CACTGCACCC
    TGCATGTGCG AGGGACCTAC CCTTTCTCCA GAACCAGGCT CGTCTAACCT GCTCTCCACC
    CAGGATGCAG TAGTGCAATG CAGAAAGCGC ATGTCAGAGA CAGAGCCATC TGGGGACAAC
    CTTCTTTCTT CAAAACTAGA GCGACCATCT GGGGGTTCTA AGCCTTTCCA CAGGTCAAGG
    CCAGGAAGAC CTCAGAGCCT AATCTTATTC AGTCCTCCTT TCCCCATTAT GGACCACCTG
    CCCCCTTCAT CCACAGTGAC AGATTCCAAG GTCCTGCTGT CCCCTATCAG AAGTCCCACC
    CAGACAGTTT CCCCTGGCCT TCTTTGTGGA GAGTTGGCAG AAAACACATG GGTCACACCA
    GAAGGGGTTA CACTTAGGAA TAAAATGACC ATCCCTAAGA ATGGCCAGAG ACTAGAGACC
    TCAACCAGCT GTTTTTACCA GCCTCAGCGG AGATCAGTAA TTCTGGATGG AAGAAGTGGG
    AGGCAAATAG AATGA

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

    CloneID OHu24028
    Clone ID Related Accession (Same CDS sequence) NM_020754.3 , NM_020754.4
    Accession Version NM_020754.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4335bp)
    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 2020-01-01
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 31
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB033030.1, BC112163.1, KF457672.1, AC092981.3 and BM970175.1. This sequence is a reference standard in the RefSeqGene project. On May 17, 2019 this sequence version replaced NM_020754.3. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB033030.1, SRR1803617.207276.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000264245.9/ ENSP00000264245.4 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' 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
    ATGAAGAACA AGGGTGCTAA GCAGAAGCTG AAACGAAAGG GAGCCGCCAG CGCGTTTGGC 
    TGTGACCTGA CGGAGTATCT GGAAAGCTCG GGACAGGATG TTCCATACGT TTTGAAGAGC
    TGTGCAGAAT TTATAGAGAC TCACGGCATC GTGGATGGAA TCTATCGGCT TTCAGGAGTC
    ACCTCAAACA TACAACGGCT AAGGCAAGAG TTTGGCTCAG ATCAATGTCC AGATCTGACA
    AGGGAAGTGT ACCTCCAGGA CATCCACTGT GTGGGCTCGC TTTGCAAGCT CTACTTTAGG
    GAGCTGCCCA ACCCCCTCCT GACTTATGAG CTCTATGAGA AATTCACGGA GGCAGTGTCG
    CATTGCCCTG AAGAAGGCCA ACTGGCCCGA ATCCAAAATG TTATCCAGGA GCTTCCTCCA
    TCCCACTATA GGACCTTGGA ATACCTGATT CGACACCTGG CCCATATCGC CTCCTTCAGC
    AGCAAGACCA ACATGCACGC CCGGAACCTG GCCCTGGTGT GGGCGCCAAA CCTCCTCAGG
    TCTAAAGAAA TTGAAGCCAC TGGTTGCAAT GGAGATGCAG CCTTCCTTGC AGTCCGGGTC
    CAGCAGGTGG TGATTGAGTT CATATTGAAT CATGTAGATC AAATCTTTAA CAACGGTGCA
    CCTGGGTCTC TGGAGAATGA TGAAAACCGG CCCATCATGA AGAGCCTGAC CTTGCCAGCC
    CTCTCCCTGC CCATGAAGCT GGTGAGCCTT GAGGAAGCTC AAGCCCGCAG CCTGGCCACT
    AACCATCCTG CTCGCAAGGA AAGGAGGGAG AACAGCCTGC CTGAGATTGT CCCTCCCATG
    GGCACCCTCT TCCACACTGT CCTTGAGTTA CCAGACAACA AGCGAAAGCT CTCCAGTAAA
    TCAAAGAAGT GGAAATCAAT ATTTAACCTG GGACGTTCTG GATCAGACTC CAAATCAAAA
    CTGAGTAGAA ATGGGAGTGT ATTTGTGAGA GGACAGAGGC TCTCGGTGGA AAAGGCTACT
    ATCCGACCAG CTAAAAGCAT GGACTCACTA TGTTCAGTGC CTGTGGAAGG AAAAGAAACC
    AAGGGAAATT TCAATCGAAC AGTTACCACC GGTGGATTTT TCATTCCAGC AACAAAGATG
    CACTCCACCG GCACCGGCAG CTCATGTGAC CTCACCAAGC AGGAGGGCGA ATGGGGCCAG
    GAGGGGATGC CTCCCGGGGC TGAGGGTGGC TTTGATGTGA GCAGTGATCG CAGCCATCTC
    CAGGGCGCTC AGGCCCGGCC CCCACCGGAA CAGCTGAAGG TTTTCCGGCC TGTTGAGGAT
    CCGGAGAGCG AGCAAACAGC CCCAAAGATG TTGGGTATGT TCTACACTTC GAACGACAGC
    CCTAGCAAAT CCGTCTTCAC CAGCAGCCTC TTCCAGATGG AGCCCTCGCC GCGTAACCAG
    CGCAAGGCGC TGAACATCTC CGAGCCCTTT GCGGTATCTG TGCCGCTCCG CGTGTCCGCA
    GTCATCAGCA CCAACAGCAC GCCGTGCAGA ACACCCCCGA AGGAGCTGCA GTCTCTTTCC
    AGCCTGGAAG AGTTTTCTTT TCATGGATCA GAGAGCGGAG GCTGGCCAGA AGAAGAGAAA
    CCGCTGGGAG CTGAGACTTC TGCAGCTTCT GTACCTAAGA AGGCAGGTCT TGAGGATGCC
    AAGGCAGTAC CTGAAGCACC GGGGACAGTG GAATGCAGCA AAGGCCTGTC CCAGGAGCCA
    GGCGCCCACC TGGAGGAGAA GAAAACCCCA GAAAGCTCCT TGAGCTCTCA ACATTTAAAT
    GAATTAGAGA AGAGGCCAAA TCCGGAGAAG GTGGTGGAGG AGGGACGAGA GGCTGGTGAG
    ATGGAGTCCA GCACCCTGCA GGAGAGCCCC AGGGCCAGAG CCGAAGCTGT GCTTCTCCAT
    GAGATGGATG AAGATGATCT GGCCAATGCC CTGATCTGGC CTGAGATTCA ACAGGAGCTG
    AAAATCATTG AATCTGAGGA GGAGCTCTCA TCGTTGCCAC CTCCTGCTCT GAAGACCAGC
    CCAATTCAGC CTATTCTCGA GTCGAGTCTG GGGCCCTTTA TTCCCTCAGA GCCTCCTGGG
    AGCTTGCCTT GTGGCTCCTT CCCTGCTCCA GTCTCCACCC CTCTGGAGGT GTGGACTAGG
    GATCCAGCCA ATCAGAGCAC ACAGGGGGCT TCCACAGCAG CCAGCAGAGA GAAGCCGGAA
    CCTGAGCAGG GCCTGCACCC AGACCTCGCC AGCCTGGCTC CTCTGGAAAT AGTTCCTTTT
    GAGAAGGCAT CTCCACAAGC AACAGTGGAA GTAGGAGGCC CAGGCAATCT GTCTCCTCCA
    CTCCCACCTG CTCCTCCCCC TCCAACTCCT CTGGAGGAGT CAACTCCAGT CCTGCTTTCA
    AAGGGCGGCC CGGAAAGAGA AGACTCATCC AGGAAATTGA GGACAGATCT CTACATAGAC
    CAGCTGAAGT CCCAAGACAG CCCTGAGATC TCTAGCCTCT GTCAGGGAGA GGAGGCAACC
    CCAAGACACA GTGACAAGCA AAATTCAAAG AATGCTGCTT CTGAGGGGAA AGGCTGTGGT
    TTTCCAAGCC CAACCAGGGA GGTTGAGATC GTCTCACAAG AAGAGGAGGA TGTAACCCAT
    TCAGTACAGG AGCCTTCAGA CTGTGACGAA GATGACACTG TGACAGACAT TGCCCAGCAT
    GGCCTGGAGA TGGTGGAGCC CTGGGAGGAA CCCCAGTGGG TGACGAGTCC CCTTCACTCT
    CCCACCCTGA AAGACGCGCA CAAGGCCCAG GTACAGGGCC TTCAGGGTCA CCAGTTGGAG
    AAGAGGCTTT CCCACAGGCC CAGCCTTCGC CAGAGCCATT CTCTAGATAG CAAACCCACG
    GTTAAAAGCC AGTGGACTCT CGAGGTTCCC TCCTCCAGCA GCTGTGCTAA TCTTGAAACA
    GAGAGGAATT CTGACCCTCT TCAGCCCCAG GCACCCAGGA GAGAGATTAC TGGATGGGAT
    GAGAAAGCCC TGAGGTCCTT CAGAGAGTTC TCTGGCCTGA AAGGGGCAGA GGCTCCTCCC
    AACCAGAAGG GACCAAGTGG TGTGCAACCC AACCCAGCAG AAACCAGCCC CATCAGCCTA
    GCAGAGGGAA AGGAGCTAGG GACACACCTG GGGCACAGCA GTCCACAGAT TAGGCAAGGT
    GGTGTTCCTG GGCCAGAGAG CAGCAAGGAG AGTTCACCCA GCGTGCAGGA CAGCACTTCG
    CCTGGAGAGC ACCCCGCAAA GTTACAGCTA AAGAGCACAG AGTGTGGGCC CCCAAAAGGG
    AAAAACAGGC CTTCTTCCCT CAACTTGGAC CCTGCCATTC CCATTGCTGA CCTCTTCTGG
    TTTGAGAATG TGGCCTCATT TAGTTCACCT GGAATGCAGG TCTCTGAGCC AGGAGACCCA
    AAGGTCACAT GGATGACCTC ATCTTACTGT AAAGCAGACC CCTGGAGGGT TTACTCCCAG
    GACCCCCAGG ACCTGGACAT TGTTGCTCAT GCACTGACAG GCCGCCGTAA CTCAGCTCCT
    GTGAGTGTGT CAGCTGTGAG AACCTCCTTC ATGGTCAAAA TGTGCCAGGC CAGGGCGGTC
    CCAGTCATCC CTCCCAAGAT TCAGTACACC CAGATCCCAC AGCCCCTGCC CTCTCAGAGC
    TCAGGGGAGA ATGGGGTTCA GCCTCTGGAG AGGAGCCAGG AGGGACCCAG CTCAACCAGT
    GGGACCACTC AGAAACCTGC CAAAGATGAT TCTCCCTCCT CCCTGGAAAG CTCAAAGGAA
    GAAAAACCAA AGCAAGATCC CGGAGCCATT AAGTCCTCAC CAGTGGATGC CACTGCACCC
    TGCATGTGCG AGGGACCTAC CCTTTCTCCA GAACCAGGCT CGTCTAACCT GCTCTCCACC
    CAGGATGCAG TAGTGCAATG CAGAAAGCGC ATGTCAGAGA CAGAGCCATC TGGGGACAAC
    CTTCTTTCTT CAAAACTAGA GCGACCATCT GGGGGTTCTA AGCCTTTCCA CAGGTCAAGG
    CCAGGAAGAC CTCAGAGCCT AATCTTATTC AGTCCTCCTT TCCCCATTAT GGACCACCTG
    CCCCCTTCAT CCACAGTGAC AGATTCCAAG GTCCTGCTGT CCCCTATCAG AAGTCCCACC
    CAGACAGTTT CCCCTGGCCT TCTTTGTGGA GAGTTGGCAG AAAACACATG GGTCACACCA
    GAAGGGGTTA CACTTAGGAA TAAAATGACC ATCCCTAAGA ATGGCCAGAG ACTAGAGACC
    TCAACCAGCT GTTTTTACCA GCCTCAGCGG AGATCAGTAA TTCTGGATGG AAGAAGTGGG
    AGGCAAATAG AATGA

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

    RefSeq NP_065805.2
    CDS523..4857
    Translation

    Target ORF information:

    RefSeq Version NM_020754.4
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 31 (ARHGAP31), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_020754.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAAGAACA AGGGTGCTAA GCAGAAGCTG AAACGAAAGG GAGCCGCCAG CGCGTTTGGC 
    TGTGACCTGA CGGAGTATCT GGAAAGCTCG GGACAGGATG TTCCATACGT TTTGAAGAGC
    TGTGCAGAAT TTATAGAGAC TCACGGCATC GTGGATGGAA TCTATCGGCT TTCAGGAGTC
    ACCTCAAACA TACAACGGCT AAGGCAAGAG TTTGGCTCAG ATCAATGTCC AGATCTGACA
    AGGGAAGTGT ACCTCCAGGA CATCCACTGT GTGGGCTCGC TTTGCAAGCT CTACTTTAGG
    GAGCTGCCCA ACCCCCTCCT GACTTATGAG CTCTATGAGA AATTCACGGA GGCAGTGTCG
    CATTGCCCTG AAGAAGGCCA ACTGGCCCGA ATCCAAAATG TTATCCAGGA GCTTCCTCCA
    TCCCACTATA GGACCTTGGA ATACCTGATT CGACACCTGG CCCATATCGC CTCCTTCAGC
    AGCAAGACCA ACATGCACGC CCGGAACCTG GCCCTGGTGT GGGCGCCAAA CCTCCTCAGG
    TCTAAAGAAA TTGAAGCCAC TGGTTGCAAT GGAGATGCAG CCTTCCTTGC AGTCCGGGTC
    CAGCAGGTGG TGATTGAGTT CATATTGAAT CATGTAGATC AAATCTTTAA CAACGGTGCA
    CCTGGGTCTC TGGAGAATGA TGAAAACCGG CCCATCATGA AGAGCCTGAC CTTGCCAGCC
    CTCTCCCTGC CCATGAAGCT GGTGAGCCTT GAGGAAGCTC AAGCCCGCAG CCTGGCCACT
    AACCATCCTG CTCGCAAGGA AAGGAGGGAG AACAGCCTGC CTGAGATTGT CCCTCCCATG
    GGCACCCTCT TCCACACTGT CCTTGAGTTA CCAGACAACA AGCGAAAGCT CTCCAGTAAA
    TCAAAGAAGT GGAAATCAAT ATTTAACCTG GGACGTTCTG GATCAGACTC CAAATCAAAA
    CTGAGTAGAA ATGGGAGTGT ATTTGTGAGA GGACAGAGGC TCTCGGTGGA AAAGGCTACT
    ATCCGACCAG CTAAAAGCAT GGACTCACTA TGTTCAGTGC CTGTGGAAGG AAAAGAAACC
    AAGGGAAATT TCAATCGAAC AGTTACCACC GGTGGATTTT TCATTCCAGC AACAAAGATG
    CACTCCACCG GCACCGGCAG CTCATGTGAC CTCACCAAGC AGGAGGGCGA ATGGGGCCAG
    GAGGGGATGC CTCCCGGGGC TGAGGGTGGC TTTGATGTGA GCAGTGATCG CAGCCATCTC
    CAGGGCGCTC AGGCCCGGCC CCCACCGGAA CAGCTGAAGG TTTTCCGGCC TGTTGAGGAT
    CCGGAGAGCG AGCAAACAGC CCCAAAGATG TTGGGTATGT TCTACACTTC GAACGACAGC
    CCTAGCAAAT CCGTCTTCAC CAGCAGCCTC TTCCAGATGG AGCCCTCGCC GCGTAACCAG
    CGCAAGGCGC TGAACATCTC CGAGCCCTTT GCGGTATCTG TGCCGCTCCG CGTGTCCGCA
    GTCATCAGCA CCAACAGCAC GCCGTGCAGA ACACCCCCGA AGGAGCTGCA GTCTCTTTCC
    AGCCTGGAAG AGTTTTCTTT TCATGGATCA GAGAGCGGAG GCTGGCCAGA AGAAGAGAAA
    CCGCTGGGAG CTGAGACTTC TGCAGCTTCT GTACCTAAGA AGGCAGGTCT TGAGGATGCC
    AAGGCAGTAC CTGAAGCACC GGGGACAGTG GAATGCAGCA AAGGCCTGTC CCAGGAGCCA
    GGCGCCCACC TGGAGGAGAA GAAAACCCCA GAAAGCTCCT TGAGCTCTCA ACATTTAAAT
    GAATTAGAGA AGAGGCCAAA TCCGGAGAAG GTGGTGGAGG AGGGACGAGA GGCTGGTGAG
    ATGGAGTCCA GCACCCTGCA GGAGAGCCCC AGGGCCAGAG CCGAAGCTGT GCTTCTCCAT
    GAGATGGATG AAGATGATCT GGCCAATGCC CTGATCTGGC CTGAGATTCA ACAGGAGCTG
    AAAATCATTG AATCTGAGGA GGAGCTCTCA TCGTTGCCAC CTCCTGCTCT GAAGACCAGC
    CCAATTCAGC CTATTCTCGA GTCGAGTCTG GGGCCCTTTA TTCCCTCAGA GCCTCCTGGG
    AGCTTGCCTT GTGGCTCCTT CCCTGCTCCA GTCTCCACCC CTCTGGAGGT GTGGACTAGG
    GATCCAGCCA ATCAGAGCAC ACAGGGGGCT TCCACAGCAG CCAGCAGAGA GAAGCCGGAA
    CCTGAGCAGG GCCTGCACCC AGACCTCGCC AGCCTGGCTC CTCTGGAAAT AGTTCCTTTT
    GAGAAGGCAT CTCCACAAGC AACAGTGGAA GTAGGAGGCC CAGGCAATCT GTCTCCTCCA
    CTCCCACCTG CTCCTCCCCC TCCAACTCCT CTGGAGGAGT CAACTCCAGT CCTGCTTTCA
    AAGGGCGGCC CGGAAAGAGA AGACTCATCC AGGAAATTGA GGACAGATCT CTACATAGAC
    CAGCTGAAGT CCCAAGACAG CCCTGAGATC TCTAGCCTCT GTCAGGGAGA GGAGGCAACC
    CCAAGACACA GTGACAAGCA AAATTCAAAG AATGCTGCTT CTGAGGGGAA AGGCTGTGGT
    TTTCCAAGCC CAACCAGGGA GGTTGAGATC GTCTCACAAG AAGAGGAGGA TGTAACCCAT
    TCAGTACAGG AGCCTTCAGA CTGTGACGAA GATGACACTG TGACAGACAT TGCCCAGCAT
    GGCCTGGAGA TGGTGGAGCC CTGGGAGGAA CCCCAGTGGG TGACGAGTCC CCTTCACTCT
    CCCACCCTGA AAGACGCGCA CAAGGCCCAG GTACAGGGCC TTCAGGGTCA CCAGTTGGAG
    AAGAGGCTTT CCCACAGGCC CAGCCTTCGC CAGAGCCATT CTCTAGATAG CAAACCCACG
    GTTAAAAGCC AGTGGACTCT CGAGGTTCCC TCCTCCAGCA GCTGTGCTAA TCTTGAAACA
    GAGAGGAATT CTGACCCTCT TCAGCCCCAG GCACCCAGGA GAGAGATTAC TGGATGGGAT
    GAGAAAGCCC TGAGGTCCTT CAGAGAGTTC TCTGGCCTGA AAGGGGCAGA GGCTCCTCCC
    AACCAGAAGG GACCAAGTGG TGTGCAACCC AACCCAGCAG AAACCAGCCC CATCAGCCTA
    GCAGAGGGAA AGGAGCTAGG GACACACCTG GGGCACAGCA GTCCACAGAT TAGGCAAGGT
    GGTGTTCCTG GGCCAGAGAG CAGCAAGGAG AGTTCACCCA GCGTGCAGGA CAGCACTTCG
    CCTGGAGAGC ACCCCGCAAA GTTACAGCTA AAGAGCACAG AGTGTGGGCC CCCAAAAGGG
    AAAAACAGGC CTTCTTCCCT CAACTTGGAC CCTGCCATTC CCATTGCTGA CCTCTTCTGG
    TTTGAGAATG TGGCCTCATT TAGTTCACCT GGAATGCAGG TCTCTGAGCC AGGAGACCCA
    AAGGTCACAT GGATGACCTC ATCTTACTGT AAAGCAGACC CCTGGAGGGT TTACTCCCAG
    GACCCCCAGG ACCTGGACAT TGTTGCTCAT GCACTGACAG GCCGCCGTAA CTCAGCTCCT
    GTGAGTGTGT CAGCTGTGAG AACCTCCTTC ATGGTCAAAA TGTGCCAGGC CAGGGCGGTC
    CCAGTCATCC CTCCCAAGAT TCAGTACACC CAGATCCCAC AGCCCCTGCC CTCTCAGAGC
    TCAGGGGAGA ATGGGGTTCA GCCTCTGGAG AGGAGCCAGG AGGGACCCAG CTCAACCAGT
    GGGACCACTC AGAAACCTGC CAAAGATGAT TCTCCCTCCT CCCTGGAAAG CTCAAAGGAA
    GAAAAACCAA AGCAAGATCC CGGAGCCATT AAGTCCTCAC CAGTGGATGC CACTGCACCC
    TGCATGTGCG AGGGACCTAC CCTTTCTCCA GAACCAGGCT CGTCTAACCT GCTCTCCACC
    CAGGATGCAG TAGTGCAATG CAGAAAGCGC ATGTCAGAGA CAGAGCCATC TGGGGACAAC
    CTTCTTTCTT CAAAACTAGA GCGACCATCT GGGGGTTCTA AGCCTTTCCA CAGGTCAAGG
    CCAGGAAGAC CTCAGAGCCT AATCTTATTC AGTCCTCCTT TCCCCATTAT GGACCACCTG
    CCCCCTTCAT CCACAGTGAC AGATTCCAAG GTCCTGCTGT CCCCTATCAG AAGTCCCACC
    CAGACAGTTT CCCCTGGCCT TCTTTGTGGA GAGTTGGCAG AAAACACATG GGTCACACCA
    GAAGGGGTTA CACTTAGGAA TAAAATGACC ATCCCTAAGA ATGGCCAGAG ACTAGAGACC
    TCAACCAGCT GTTTTTACCA GCCTCAGCGG AGATCAGTAA TTCTGGATGG AAGAAGTGGG
    AGGCAAATAG AATGA

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

    CloneID OHu38079
    Clone ID Related Accession (Same CDS sequence) XM_006713714.3
    Accession Version XM_006713714.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 31 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000003.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006713714.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAAGAACA AGGGTGCTAA GCAGAAGCTG AAACGAAAGG GAGCCGCCAG CGCGTTTGGC 
    TGTGACCTGA CGGAGTATCT GGAAAGCTCG GGACAGGATG TTCCATACGT TTTGAAGAGC
    TGTGCAGAAT TTATAGAGAC TCACGGCATC GTGGATGGAA TCTATCGGCT TTCAGGAGTC
    ACCTCAAACA TACAACGGCT AAGGCAAGAG TTTGGCTCAG ATCAATGTCC AGATCTGACA
    AGGGAAGTGT ACCTCCAGGA CATCCACTGT GTGGGCTCGC TTTGCAAGCT CTACTTTAGG
    GAGCTGCCCA ACCCCCTCCT GACTTATGAG CTCTATGAGA AATTCACGGA GGCAGTGTCG
    CATTGCCCTG AAGAAGGCCA ACTGGCCCGA ATCCAAAATG TTATCCAGGA GCTTCCTCCA
    TCCCACTATA GGACCTTGGA ATACCTGATT CGACACCTGG CCCATATCGC CTCCTTCAGC
    AGCAAGACCA ACATGCACGC CCGGAACCTG GCCCTGGTGT GGGCGCCAAA CCTCCTCAGG
    TCTAAAGAAA TTGAAGCCAC TGGTTGCAAT GGAGATGCAG CCTTCCTTGC AGTCCGGGTC
    CAGCAGGTGG TGATTGAGTT CATATTGAAT CATGTAGATC AAATCTTTAA CAACGGTGCA
    CCTGGGTCTC TGGAGAATGA TGAAAACCGG CCCATCATGA AGAGCCTGAC CTTGCCAGCC
    CTCTCCCTGC CCATGAAGCT GGTGAGCCTT GAGGAAGCTC AAGCCCGCAG CCTGGCCACT
    AACCATCCTG CTCGCAAGGA AAGGAGGGAG AACAGCCTGC CTGAGATTGT CCCTCCCATG
    GGCACCCTCT TCCACACTGT CCTTGAGTTA CCAGACAACA AGCGAAAGCT CTCCAGTAAA
    TCAAAGAAGT GGAAATCAAT ATTTAACCTG GGACGTTCTG GATCAGACTC CAAATCAAAA
    CTGAGTAGAA ATGGGAGTGT ATTTGTGAGA GGACAGAGGC TCTCGGTGGA AAAGGCTACT
    ATCCGACCAG CTAAAAGCAT GGACTCACTA TGTTCAGTGC CTGTGGAAGC AACAAAGATG
    CACTCCACCG GCACCGGCAG CTCATGTGAC CTCACCAAGC AGGAGGGCGA ATGGGGCCAG
    GAGGGGATGC CTCCCGGGGC TGAGGGTGGC TTTGATGTGA GCAGTGATCG CAGCCATCTC
    CAGGGCGCTC AGGCCCGGCC CCCACCGGAA CAGCTGAAGG TTTTCCGGCC TGTTGAGGAT
    CCGGAGAGCG AGCAAACAGC CCCAAAGATG TTGGGTATGT TCTACACTTC GAACGACAGC
    CCTAGCAAAT CCGTCTTCAC CAGCAGCCTC TTCCAGATGG AGCCCTCGCC GCGTAACCAG
    CGCAAGGCGC TGAACATCTC CGAGCCCTTT GCGGTATCTG TGCCGCTCCG CGTGTCCGCA
    GTCATCAGCA CCAACAGCAC GCCGTGCAGA ACACCCCCGA AGGAGCTGCA GTCTCTTTCC
    AGCCTGGAAG AGTTTTCTTT TCATGGATCA GAGAGCGGAG GCTGGCCAGA AGAAGAGAAA
    CCGCTGGGAG CTGAGACTTC TGCAGCTTCT GTACCTAAGA AGGCAGGTCT TGAGGATGCC
    AAGGCAGTAC CTGAAGCACC GGGGACAGTG GAATGCAGCA AAGGCCTGTC CCAGGAGCCA
    GGCGCCCACC TGGAGGAGAA GAAAACCCCA GAAAGCTCCT TGAGCTCTCA ACATTTAAAT
    GAATTAGAGA AGAGGCCAAA TCCGGAGAAG GTGGTGGAGG AGGGACGAGA GGCTGGTGAG
    ATGGAGTCCA GCACCCTGCA GGAGAGCCCC AGGGCCAGAG CCGAAGCTGT GCTTCTCCAT
    GAGATGGATG AAGATGATCT GGCCAATGCC CTGATCTGGC CTGAGATTCA ACAGGAGCTG
    AAAATCATTG AATCTGAGGA GGAGCTCTCA TCGTTGCCAC CTCCTGCTCT GAAGACCAGC
    CCAATTCAGC CTATTCTCGA GTCGAGTCTG GGGCCCTTTA TTCCCTCAGA GCCTCCTGGG
    AGCTTGCCTT GTGGCTCCTT CCCTGCTCCA GTCTCCACCC CTCTGGAGGT GTGGACTAGG
    GATCCAGCCA ATCAGAGCAC ACAGGGGGCT TCCACAGCAG CCAGCAGAGA GAAGCCGGAA
    CCTGAGCAGG GCCTGCACCC AGACCTCGCC AGCCTGGCTC CTCTGGAAAT AGTTCCTTTT
    GAGAAGGCAT CTCCACAAGC AACAGTGGAA GTAGGAGGCC CAGGCAATCT GTCTCCTCCA
    CTCCCACCTG CTCCTCCCCC TCCAACTCCT CTGGAGGAGT CAACTCCAGT CCTGCTTTCA
    AAGGGCGGCC CGGAAAGAGA AGACTCATCC AGGAAATTGA GGACAGATCT CTACATAGAC
    CAGCTGAAGT CCCAAGACAG CCCTGAGATC TCTAGCCTCT GTCAGGGAGA GGAGGCAACC
    CCAAGACACA GTGACAAGCA AAATTCAAAG AATGCTGCTT CTGAGGGGAA AGGCTGTGGT
    TTTCCAAGCC CAACCAGGGA GGTTGAGATC GTCTCACAAG AAGAGGAGGA TGTAACCCAT
    TCAGTACAGG AGCCTTCAGA CTGTGACGAA GATGACACTG TGACAGACAT TGCCCAGCAT
    GGCCTGGAGA TGGTGGAGCC CTGGGAGGAA CCCCAGTGGG TGACGAGTCC CCTTCACTCT
    CCCACCCTGA AAGACGCGCA CAAGGCCCAG GTACAGGGCC TTCAGGGTCA CCAGTTGGAG
    AAGAGGCTTT CCCACAGGCC CAGCCTTCGC CAGAGCCATT CTCTAGATAG CAAACCCACG
    GTTAAAAGCC AGTGGACTCT CGAGGTTCCC TCCTCCAGCA GCTGTGCTAA TCTTGAAACA
    GAGAGGAATT CTGACCCTCT TCAGCCCCAG GCACCCAGGA GAGAGATTAC TGGATGGGAT
    GAGAAAGCCC TGAGGTCCTT CAGAGAGTTC TCTGGCCTGA AAGGGGCAGA GGCTCCTCCC
    AACCAGAAGG GACCAAGTGG TGTGCAACCC AACCCAGCAG AAACCAGCCC CATCAGCCTA
    GCAGAGGGAA AGGAGCTAGG GACACACCTG GGGCACAGCA GTCCACAGAT TAGGCAAGGT
    GGTGTTCCTG GGCCAGAGAG CAGCAAGGAG AGTTCACCCA GCGTGCAGGA CAGCACTTCG
    CCTGGAGAGC ACCCCGCAAA GTTACAGCTA AAGAGCACAG AGTGTGGGCC CCCAAAAGGG
    AAAAACAGGC CTTCTTCCCT CAACTTGGAC CCTGCCATTC CCATTGCTGA CCTCTTCTGG
    TTTGAGAATG TGGCCTCATT TAGTTCACCT GGAATGCAGG TCTCTGAGCC AGGAGACCCA
    AAGGTCACAT GGATGACCTC ATCTTACTGT AAAGCAGACC CCTGGAGGGT TTACTCCCAG
    GACCCCCAGG ACCTGGACAT TGTTGCTCAT GCACTGACAG GCCGCCGTAA CTCAGCTCCT
    GTGAGTGTGT CAGCTGTGAG AACCTCCTTC ATGGTCAAAA TGTGCCAGGC CAGGGCGGTC
    CCAGTCATCC CTCCCAAGAT TCAGTACACC CAGATCCCAC AGCCCCTGCC CTCTCAGAGC
    TCAGGGGAGA ATGGGGTTCA GCCTCTGGAG AGGAGCCAGG AGGGACCCAG CTCAACCAGT
    GGGACCACTC AGAAACCTGC CAAAGATGAT TCTCCCTCCT CCCTGGAAAG CTCAAAGGAA
    GAAAAACCAA AGCAAGATCC CGGAGCCATT AAGTCCTCAC CAGTGGATGC CACTGCACCC
    TGCATGTGCG AGGGACCTAC CCTTTCTCCA GAACCAGGCT CGTCTAACCT GCTCTCCACC
    CAGGATGCAG TAGTGCAATG CAGAAAGCGC ATGTCAGAGA CAGAGCCATC TGGGGACAAC
    CTTCTTTCTT CAAAACTAGA GCGACCATCT GGGGGTTCTA AGCCTTTCCA CAGGTCAAGG
    CCAGGAAGAC CTCAGAGCCT AATCTTATTC AGTCCTCCTT TCCCCATTAT GGACCACCTG
    CCCCCTTCAT CCACAGTGAC AGATTCCAAG GTCCTGCTGT CCCCTATCAG AAGTCCCACC
    CAGACAGTTT CCCCTGGCCT TCTTTGTGGA GAGTTGGCAG AAAACACATG GGTCACACCA
    GAAGGGGTTA CACTTAGGAA TAAAATGACC ATCCCTAAGA ATGGCCAGAG ACTAGAGACC
    TCAACCAGCT GTTTTTACCA GCCTCAGCGG AGATCAGTAA TTCTGGATGG AAGAAGTGGG
    AGGCAAATAG AATGA

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

    RefSeq XP_006713777.1
    CDS617..4891
    Translation

    Target ORF information:

    RefSeq Version XM_006713714.3
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 31 (ARHGAP31), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006713714.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGAAGAACA AGGGTGCTAA GCAGAAGCTG AAACGAAAGG GAGCCGCCAG CGCGTTTGGC 
    TGTGACCTGA CGGAGTATCT GGAAAGCTCG GGACAGGATG TTCCATACGT TTTGAAGAGC
    TGTGCAGAAT TTATAGAGAC TCACGGCATC GTGGATGGAA TCTATCGGCT TTCAGGAGTC
    ACCTCAAACA TACAACGGCT AAGGCAAGAG TTTGGCTCAG ATCAATGTCC AGATCTGACA
    AGGGAAGTGT ACCTCCAGGA CATCCACTGT GTGGGCTCGC TTTGCAAGCT CTACTTTAGG
    GAGCTGCCCA ACCCCCTCCT GACTTATGAG CTCTATGAGA AATTCACGGA GGCAGTGTCG
    CATTGCCCTG AAGAAGGCCA ACTGGCCCGA ATCCAAAATG TTATCCAGGA GCTTCCTCCA
    TCCCACTATA GGACCTTGGA ATACCTGATT CGACACCTGG CCCATATCGC CTCCTTCAGC
    AGCAAGACCA ACATGCACGC CCGGAACCTG GCCCTGGTGT GGGCGCCAAA CCTCCTCAGG
    TCTAAAGAAA TTGAAGCCAC TGGTTGCAAT GGAGATGCAG CCTTCCTTGC AGTCCGGGTC
    CAGCAGGTGG TGATTGAGTT CATATTGAAT CATGTAGATC AAATCTTTAA CAACGGTGCA
    CCTGGGTCTC TGGAGAATGA TGAAAACCGG CCCATCATGA AGAGCCTGAC CTTGCCAGCC
    CTCTCCCTGC CCATGAAGCT GGTGAGCCTT GAGGAAGCTC AAGCCCGCAG CCTGGCCACT
    AACCATCCTG CTCGCAAGGA AAGGAGGGAG AACAGCCTGC CTGAGATTGT CCCTCCCATG
    GGCACCCTCT TCCACACTGT CCTTGAGTTA CCAGACAACA AGCGAAAGCT CTCCAGTAAA
    TCAAAGAAGT GGAAATCAAT ATTTAACCTG GGACGTTCTG GATCAGACTC CAAATCAAAA
    CTGAGTAGAA ATGGGAGTGT ATTTGTGAGA GGACAGAGGC TCTCGGTGGA AAAGGCTACT
    ATCCGACCAG CTAAAAGCAT GGACTCACTA TGTTCAGTGC CTGTGGAAGC AACAAAGATG
    CACTCCACCG GCACCGGCAG CTCATGTGAC CTCACCAAGC AGGAGGGCGA ATGGGGCCAG
    GAGGGGATGC CTCCCGGGGC TGAGGGTGGC TTTGATGTGA GCAGTGATCG CAGCCATCTC
    CAGGGCGCTC AGGCCCGGCC CCCACCGGAA CAGCTGAAGG TTTTCCGGCC TGTTGAGGAT
    CCGGAGAGCG AGCAAACAGC CCCAAAGATG TTGGGTATGT TCTACACTTC GAACGACAGC
    CCTAGCAAAT CCGTCTTCAC CAGCAGCCTC TTCCAGATGG AGCCCTCGCC GCGTAACCAG
    CGCAAGGCGC TGAACATCTC CGAGCCCTTT GCGGTATCTG TGCCGCTCCG CGTGTCCGCA
    GTCATCAGCA CCAACAGCAC GCCGTGCAGA ACACCCCCGA AGGAGCTGCA GTCTCTTTCC
    AGCCTGGAAG AGTTTTCTTT TCATGGATCA GAGAGCGGAG GCTGGCCAGA AGAAGAGAAA
    CCGCTGGGAG CTGAGACTTC TGCAGCTTCT GTACCTAAGA AGGCAGGTCT TGAGGATGCC
    AAGGCAGTAC CTGAAGCACC GGGGACAGTG GAATGCAGCA AAGGCCTGTC CCAGGAGCCA
    GGCGCCCACC TGGAGGAGAA GAAAACCCCA GAAAGCTCCT TGAGCTCTCA ACATTTAAAT
    GAATTAGAGA AGAGGCCAAA TCCGGAGAAG GTGGTGGAGG AGGGACGAGA GGCTGGTGAG
    ATGGAGTCCA GCACCCTGCA GGAGAGCCCC AGGGCCAGAG CCGAAGCTGT GCTTCTCCAT
    GAGATGGATG AAGATGATCT GGCCAATGCC CTGATCTGGC CTGAGATTCA ACAGGAGCTG
    AAAATCATTG AATCTGAGGA GGAGCTCTCA TCGTTGCCAC CTCCTGCTCT GAAGACCAGC
    CCAATTCAGC CTATTCTCGA GTCGAGTCTG GGGCCCTTTA TTCCCTCAGA GCCTCCTGGG
    AGCTTGCCTT GTGGCTCCTT CCCTGCTCCA GTCTCCACCC CTCTGGAGGT GTGGACTAGG
    GATCCAGCCA ATCAGAGCAC ACAGGGGGCT TCCACAGCAG CCAGCAGAGA GAAGCCGGAA
    CCTGAGCAGG GCCTGCACCC AGACCTCGCC AGCCTGGCTC CTCTGGAAAT AGTTCCTTTT
    GAGAAGGCAT CTCCACAAGC AACAGTGGAA GTAGGAGGCC CAGGCAATCT GTCTCCTCCA
    CTCCCACCTG CTCCTCCCCC TCCAACTCCT CTGGAGGAGT CAACTCCAGT CCTGCTTTCA
    AAGGGCGGCC CGGAAAGAGA AGACTCATCC AGGAAATTGA GGACAGATCT CTACATAGAC
    CAGCTGAAGT CCCAAGACAG CCCTGAGATC TCTAGCCTCT GTCAGGGAGA GGAGGCAACC
    CCAAGACACA GTGACAAGCA AAATTCAAAG AATGCTGCTT CTGAGGGGAA AGGCTGTGGT
    TTTCCAAGCC CAACCAGGGA GGTTGAGATC GTCTCACAAG AAGAGGAGGA TGTAACCCAT
    TCAGTACAGG AGCCTTCAGA CTGTGACGAA GATGACACTG TGACAGACAT TGCCCAGCAT
    GGCCTGGAGA TGGTGGAGCC CTGGGAGGAA CCCCAGTGGG TGACGAGTCC CCTTCACTCT
    CCCACCCTGA AAGACGCGCA CAAGGCCCAG GTACAGGGCC TTCAGGGTCA CCAGTTGGAG
    AAGAGGCTTT CCCACAGGCC CAGCCTTCGC CAGAGCCATT CTCTAGATAG CAAACCCACG
    GTTAAAAGCC AGTGGACTCT CGAGGTTCCC TCCTCCAGCA GCTGTGCTAA TCTTGAAACA
    GAGAGGAATT CTGACCCTCT TCAGCCCCAG GCACCCAGGA GAGAGATTAC TGGATGGGAT
    GAGAAAGCCC TGAGGTCCTT CAGAGAGTTC TCTGGCCTGA AAGGGGCAGA GGCTCCTCCC
    AACCAGAAGG GACCAAGTGG TGTGCAACCC AACCCAGCAG AAACCAGCCC CATCAGCCTA
    GCAGAGGGAA AGGAGCTAGG GACACACCTG GGGCACAGCA GTCCACAGAT TAGGCAAGGT
    GGTGTTCCTG GGCCAGAGAG CAGCAAGGAG AGTTCACCCA GCGTGCAGGA CAGCACTTCG
    CCTGGAGAGC ACCCCGCAAA GTTACAGCTA AAGAGCACAG AGTGTGGGCC CCCAAAAGGG
    AAAAACAGGC CTTCTTCCCT CAACTTGGAC CCTGCCATTC CCATTGCTGA CCTCTTCTGG
    TTTGAGAATG TGGCCTCATT TAGTTCACCT GGAATGCAGG TCTCTGAGCC AGGAGACCCA
    AAGGTCACAT GGATGACCTC ATCTTACTGT AAAGCAGACC CCTGGAGGGT TTACTCCCAG
    GACCCCCAGG ACCTGGACAT TGTTGCTCAT GCACTGACAG GCCGCCGTAA CTCAGCTCCT
    GTGAGTGTGT CAGCTGTGAG AACCTCCTTC ATGGTCAAAA TGTGCCAGGC CAGGGCGGTC
    CCAGTCATCC CTCCCAAGAT TCAGTACACC CAGATCCCAC AGCCCCTGCC CTCTCAGAGC
    TCAGGGGAGA ATGGGGTTCA GCCTCTGGAG AGGAGCCAGG AGGGACCCAG CTCAACCAGT
    GGGACCACTC AGAAACCTGC CAAAGATGAT TCTCCCTCCT CCCTGGAAAG CTCAAAGGAA
    GAAAAACCAA AGCAAGATCC CGGAGCCATT AAGTCCTCAC CAGTGGATGC CACTGCACCC
    TGCATGTGCG AGGGACCTAC CCTTTCTCCA GAACCAGGCT CGTCTAACCT GCTCTCCACC
    CAGGATGCAG TAGTGCAATG CAGAAAGCGC ATGTCAGAGA CAGAGCCATC TGGGGACAAC
    CTTCTTTCTT CAAAACTAGA GCGACCATCT GGGGGTTCTA AGCCTTTCCA CAGGTCAAGG
    CCAGGAAGAC CTCAGAGCCT AATCTTATTC AGTCCTCCTT TCCCCATTAT GGACCACCTG
    CCCCCTTCAT CCACAGTGAC AGATTCCAAG GTCCTGCTGT CCCCTATCAG AAGTCCCACC
    CAGACAGTTT CCCCTGGCCT TCTTTGTGGA GAGTTGGCAG AAAACACATG GGTCACACCA
    GAAGGGGTTA CACTTAGGAA TAAAATGACC ATCCCTAAGA ATGGCCAGAG ACTAGAGACC
    TCAACCAGCT GTTTTTACCA GCCTCAGCGG AGATCAGTAA TTCTGGATGG AAGAAGTGGG
    AGGCAAATAG AATGA

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