| Gene Symbol | ARHGAP6 |
| Entrez Gene ID | 100467648 |
| Full Name | Rho GTPase activating protein 6 |
| Gene Type | protein-coding |
| Organism | Ailuropoda melanoleuca(giant panda) |
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ARHGAP6 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)
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Gene
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Clones
gRNAs
The following ARHGAP6 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARHGAP6 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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Reference Sequences (Refseq)
CloneID OAc20977 Clone ID Related Accession (Same CDS sequence) XM_011219512.2 Accession Version XM_011219512.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2427bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product rho GTPase-activating protein 6 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217364.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011219512.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
2401ATGGGGGGTC AGTTCTGCCT GGAGCTGCTG CTGCTGCTGA GGTGTAAGGA CCCTGGAGAG
GGTGATTTCA CCTGGAACAG CATGTCGGGC CGCAGTGTGC GGCTGAGATC CGTCCCCATC
CAGAGTCTGT CAGAGCTGGA GCGAGCCCGG CTGCAGGAAG TGGCTTTTTA TCAGTTGCAG
CAGGACTGTG ACCTGAGCTG TCCCATCACC ATTCCCAAAG ATGGACAGAA GAGAAAGAAA
TCTTTGCGAA AGAAACTGGA TTCACTAGGA AAGGAGAAAA ACAAAGACAG AGAATTCATC
CCGCAGGCAT TTGGAATGCC TTTATCCCAA GTCATTGCAA ATGACCGGGC CTATAAACTC
AAGCAGGACT CGCAGAGGGA CGAGCAGAAG GATGCGTCTG ACTTTGTGGC TTCCCTCCTC
CCGTTCGGAA ATAAAAGACA CAACAAAGAA CTCTCAAGCA GTAACTCATC TCTCAGCTCC
ACCTCTGAAA CACCAAATGA GTCAACATCC CCAAACACCC CAGAACCGGC TCCTCGGGCC
AGGAGGAGGG GCGCGATGTC AGTGGATTCT ATCACAGATC TTGATGACAA TCAGTCTCGA
CTGCTAGAAG CTTTACAACT CTCCTTGCCT GCCGAGGCTC AGAGTAAAAA AGAAAAAGCC
AGAGATAAGA AACTCAGTCT GAATCCCATT TACAGACAGG TCCCCAGGCT GGTGGACAGC
TGCTGTCAGC ATCTAGAAAA ACATGGCCTC CAGACGGTGG GGATATTCCG AGTTGGAAGC
TCAAAAAAGA GAGTGAGACA ATTACGTGAG GAATTTGACC GTGGGGTCGA TGTCTCTCTG
GAGGAAGAGC ACAGCGTCCA TGATGTGGCT GCCTTGCTGA AGGAGTTCCT GAGGGACATG
CCGGACCCCC TCCTCACCAG GGAGCTGTAC ACAGCCTTCA TCAATACTCT CTTGTTGGAA
CCAGAGGAAC AGCTGGGTAC CTTGCAGCTC CTCGTCTACC TTCTACCTCC CTGTAACTGC
GACACCCTCC ACCGCCTCCT ACAGTTCCTC TCCATGGTGG CCAAGCACGC CAACGACAAC
GTCAGCAAAG ATGGGCAAGA GGTCACTGGG AACAAAATGA CCTCTCTAAA CTTGGCCACC
ATATTTGGAC CCAACCTGCT GCACAAGCAG AAATCATCAG ACAAAGAATT CTCTGTCCAG
AGCTCAGCCC GGGCTGAGGA GAGCACAGCC ATCATTGCTG TGGTGCAGAA AATGATTGAA
AATTATGAAG CCCTGTTCAT GGTTCCTCCA GATCTCCAGA ACGAAGTGCT GATCAGCCTG
TTGGAGACCG ATCCCGATGT GGTGGACTAT TTGCTCAGAA GAAAGGCCTC GCAGTCATCA
AGCCCTGACA TGTTGAGATC GGAAGTTTCC TTTTCTGTGG GAGGAAGGCA TTCGTCCACT
GACTCCAACA AGGCCTCCAG CGGAGACCTC TCCCCATATG ACAACAACTC CCCAGTGCTG
TCTGAGCGCT CCTTGCTGGC TATGCAAGAG GATGCGGCCC CGGGGGGCTC GGAGAAGCTT
TACAAAGGAC CGGAGCGGTA TGTGCTGGTG AGCCACTTGC CATCGTCGGA ATCAAGGGAG
AGTTCTCCTG GACCAAGGCT TGGCAAAGAT ATGTCAGAGG AGCCTTTCAA TATCTGGGGA
ACTTGGCATT CAACATTAAA AAGTGGTTCC AAAGACCCAG GAATGACAGG TTCCTATGGA
GACATTTTTG AAAGCAGCTC TCTACGACCG GGGCCATGCT CCCTTTCTCA AGGGAACCTG
TCCCCGAATT GGCCCCGGTG GCAGGGGAGC CCCACAGAAC TGGAAAGTGG CTCACAGGTC
ATTCGGAGGA CTCAGACCAC GGCCACCATC ATGGAGTGCA GGGCCTGCCC TCCTGTGTCC
CGCGTCGGCA GCACGCCCCA CATCCAGGGT GGCGGCAGAA GGTCTGAGCA GGCCGCACCG
AAGTCAGAGC AGTATTTGAC TCTGAGCAGT GCCGAAGACC TCACCGAGAG TGAGCTTGAT
GTGGCCTGGC CGCAGAGCAG AGCCAAGCCT TTGCACCAGA GACCTCGAGA GAGTGAGAAG
CATGACAAGA GGCCCCCTCC TCCTTATCCT GGTCCAGGGA AGCAAGCTGT AGTGGCATCC
CAGCAGCCAG GAGAGCCACT GTTGTGGAGG CCTCAGAGGC CAGAAGAAGG TTCCAGAACA
GCTTTGGAAG AGGGAAGCCA AACAGCTGAG CGAGAGCAGC AAGCCGCTGA GCAAAAACTG
AGCAGCGCCT ACTCCACTCC CGCCAGCGAC CAGGACAGTA AGACTTTGGC TGAACCCAAC
TGGCTCGATT GGCAGAGAGA GCGGTGGCAG ATCTGGGAGC TCTTATCAAC CGACAACCCC
GATGCCCTCC CGGAAACGCT GGTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_011217814.1 CDS 220..2646 Translation 
Target ORF information:
RefSeq Version XM_011219512.2 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca Rho GTPase activating protein 6 (ARHGAP6), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_011219512.2
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
2401ATGGGGGGTC AGTTCTGCCT GGAGCTGCTG CTGCTGCTGA GGTGTAAGGA CCCTGGAGAG
GGTGATTTCA CCTGGAACAG CATGTCGGGC CGCAGTGTGC GGCTGAGATC CGTCCCCATC
CAGAGTCTGT CAGAGCTGGA GCGAGCCCGG CTGCAGGAAG TGGCTTTTTA TCAGTTGCAG
CAGGACTGTG ACCTGAGCTG TCCCATCACC ATTCCCAAAG ATGGACAGAA GAGAAAGAAA
TCTTTGCGAA AGAAACTGGA TTCACTAGGA AAGGAGAAAA ACAAAGACAG AGAATTCATC
CCGCAGGCAT TTGGAATGCC TTTATCCCAA GTCATTGCAA ATGACCGGGC CTATAAACTC
AAGCAGGACT CGCAGAGGGA CGAGCAGAAG GATGCGTCTG ACTTTGTGGC TTCCCTCCTC
CCGTTCGGAA ATAAAAGACA CAACAAAGAA CTCTCAAGCA GTAACTCATC TCTCAGCTCC
ACCTCTGAAA CACCAAATGA GTCAACATCC CCAAACACCC CAGAACCGGC TCCTCGGGCC
AGGAGGAGGG GCGCGATGTC AGTGGATTCT ATCACAGATC TTGATGACAA TCAGTCTCGA
CTGCTAGAAG CTTTACAACT CTCCTTGCCT GCCGAGGCTC AGAGTAAAAA AGAAAAAGCC
AGAGATAAGA AACTCAGTCT GAATCCCATT TACAGACAGG TCCCCAGGCT GGTGGACAGC
TGCTGTCAGC ATCTAGAAAA ACATGGCCTC CAGACGGTGG GGATATTCCG AGTTGGAAGC
TCAAAAAAGA GAGTGAGACA ATTACGTGAG GAATTTGACC GTGGGGTCGA TGTCTCTCTG
GAGGAAGAGC ACAGCGTCCA TGATGTGGCT GCCTTGCTGA AGGAGTTCCT GAGGGACATG
CCGGACCCCC TCCTCACCAG GGAGCTGTAC ACAGCCTTCA TCAATACTCT CTTGTTGGAA
CCAGAGGAAC AGCTGGGTAC CTTGCAGCTC CTCGTCTACC TTCTACCTCC CTGTAACTGC
GACACCCTCC ACCGCCTCCT ACAGTTCCTC TCCATGGTGG CCAAGCACGC CAACGACAAC
GTCAGCAAAG ATGGGCAAGA GGTCACTGGG AACAAAATGA CCTCTCTAAA CTTGGCCACC
ATATTTGGAC CCAACCTGCT GCACAAGCAG AAATCATCAG ACAAAGAATT CTCTGTCCAG
AGCTCAGCCC GGGCTGAGGA GAGCACAGCC ATCATTGCTG TGGTGCAGAA AATGATTGAA
AATTATGAAG CCCTGTTCAT GGTTCCTCCA GATCTCCAGA ACGAAGTGCT GATCAGCCTG
TTGGAGACCG ATCCCGATGT GGTGGACTAT TTGCTCAGAA GAAAGGCCTC GCAGTCATCA
AGCCCTGACA TGTTGAGATC GGAAGTTTCC TTTTCTGTGG GAGGAAGGCA TTCGTCCACT
GACTCCAACA AGGCCTCCAG CGGAGACCTC TCCCCATATG ACAACAACTC CCCAGTGCTG
TCTGAGCGCT CCTTGCTGGC TATGCAAGAG GATGCGGCCC CGGGGGGCTC GGAGAAGCTT
TACAAAGGAC CGGAGCGGTA TGTGCTGGTG AGCCACTTGC CATCGTCGGA ATCAAGGGAG
AGTTCTCCTG GACCAAGGCT TGGCAAAGAT ATGTCAGAGG AGCCTTTCAA TATCTGGGGA
ACTTGGCATT CAACATTAAA AAGTGGTTCC AAAGACCCAG GAATGACAGG TTCCTATGGA
GACATTTTTG AAAGCAGCTC TCTACGACCG GGGCCATGCT CCCTTTCTCA AGGGAACCTG
TCCCCGAATT GGCCCCGGTG GCAGGGGAGC CCCACAGAAC TGGAAAGTGG CTCACAGGTC
ATTCGGAGGA CTCAGACCAC GGCCACCATC ATGGAGTGCA GGGCCTGCCC TCCTGTGTCC
CGCGTCGGCA GCACGCCCCA CATCCAGGGT GGCGGCAGAA GGTCTGAGCA GGCCGCACCG
AAGTCAGAGC AGTATTTGAC TCTGAGCAGT GCCGAAGACC TCACCGAGAG TGAGCTTGAT
GTGGCCTGGC CGCAGAGCAG AGCCAAGCCT TTGCACCAGA GACCTCGAGA GAGTGAGAAG
CATGACAAGA GGCCCCCTCC TCCTTATCCT GGTCCAGGGA AGCAAGCTGT AGTGGCATCC
CAGCAGCCAG GAGAGCCACT GTTGTGGAGG CCTCAGAGGC CAGAAGAAGG TTCCAGAACA
GCTTTGGAAG AGGGAAGCCA AACAGCTGAG CGAGAGCAGC AAGCCGCTGA GCAAAAACTG
AGCAGCGCCT ACTCCACTCC CGCCAGCGAC CAGGACAGTA AGACTTTGGC TGAACCCAAC
TGGCTCGATT GGCAGAGAGA GCGGTGGCAG ATCTGGGAGC TCTTATCAAC CGACAACCCC
GATGCCCTCC CGGAAACGCT GGTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc20978 Clone ID Related Accession (Same CDS sequence) XM_011219513.2 Accession Version XM_011219513.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2412bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product rho GTPase-activating protein 6 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217364.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011219513.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
2401ATGGGGGACC CGGTATCCCG CGAGAAACCG CAGCTGCACT ACGCGGGTGA TTTCACCTGG
AACAGCATGT CGGGCCGCAG TGTGCGGCTG AGATCCGTCC CCATCCAGAG TCTGTCAGAG
CTGGAGCGAG CCCGGCTGCA GGAAGTGGCT TTTTATCAGT TGCAGCAGGA CTGTGACCTG
AGCTGTCCCA TCACCATTCC CAAAGATGGA CAGAAGAGAA AGAAATCTTT GCGAAAGAAA
CTGGATTCAC TAGGAAAGGA GAAAAACAAA GACAGAGAAT TCATCCCGCA GGCATTTGGA
ATGCCTTTAT CCCAAGTCAT TGCAAATGAC CGGGCCTATA AACTCAAGCA GGACTCGCAG
AGGGACGAGC AGAAGGATGC GTCTGACTTT GTGGCTTCCC TCCTCCCGTT CGGAAATAAA
AGACACAACA AAGAACTCTC AAGCAGTAAC TCATCTCTCA GCTCCACCTC TGAAACACCA
AATGAGTCAA CATCCCCAAA CACCCCAGAA CCGGCTCCTC GGGCCAGGAG GAGGGGCGCG
ATGTCAGTGG ATTCTATCAC AGATCTTGAT GACAATCAGT CTCGACTGCT AGAAGCTTTA
CAACTCTCCT TGCCTGCCGA GGCTCAGAGT AAAAAAGAAA AAGCCAGAGA TAAGAAACTC
AGTCTGAATC CCATTTACAG ACAGGTCCCC AGGCTGGTGG ACAGCTGCTG TCAGCATCTA
GAAAAACATG GCCTCCAGAC GGTGGGGATA TTCCGAGTTG GAAGCTCAAA AAAGAGAGTG
AGACAATTAC GTGAGGAATT TGACCGTGGG GTCGATGTCT CTCTGGAGGA AGAGCACAGC
GTCCATGATG TGGCTGCCTT GCTGAAGGAG TTCCTGAGGG ACATGCCGGA CCCCCTCCTC
ACCAGGGAGC TGTACACAGC CTTCATCAAT ACTCTCTTGT TGGAACCAGA GGAACAGCTG
GGTACCTTGC AGCTCCTCGT CTACCTTCTA CCTCCCTGTA ACTGCGACAC CCTCCACCGC
CTCCTACAGT TCCTCTCCAT GGTGGCCAAG CACGCCAACG ACAACGTCAG CAAAGATGGG
CAAGAGGTCA CTGGGAACAA AATGACCTCT CTAAACTTGG CCACCATATT TGGACCCAAC
CTGCTGCACA AGCAGAAATC ATCAGACAAA GAATTCTCTG TCCAGAGCTC AGCCCGGGCT
GAGGAGAGCA CAGCCATCAT TGCTGTGGTG CAGAAAATGA TTGAAAATTA TGAAGCCCTG
TTCATGGTTC CTCCAGATCT CCAGAACGAA GTGCTGATCA GCCTGTTGGA GACCGATCCC
GATGTGGTGG ACTATTTGCT CAGAAGAAAG GCCTCGCAGT CATCAAGCCC TGACATGTTG
AGATCGGAAG TTTCCTTTTC TGTGGGAGGA AGGCATTCGT CCACTGACTC CAACAAGGCC
TCCAGCGGAG ACCTCTCCCC ATATGACAAC AACTCCCCAG TGCTGTCTGA GCGCTCCTTG
CTGGCTATGC AAGAGGATGC GGCCCCGGGG GGCTCGGAGA AGCTTTACAA AGGACCGGAG
CGGTATGTGC TGGTGAGCCA CTTGCCATCG TCGGAATCAA GGGAGAGTTC TCCTGGACCA
AGGCTTGGCA AAGATATGTC AGAGGAGCCT TTCAATATCT GGGGAACTTG GCATTCAACA
TTAAAAAGTG GTTCCAAAGA CCCAGGAATG ACAGGTTCCT ATGGAGACAT TTTTGAAAGC
AGCTCTCTAC GACCGGGGCC ATGCTCCCTT TCTCAAGGGA ACCTGTCCCC GAATTGGCCC
CGGTGGCAGG GGAGCCCCAC AGAACTGGAA AGTGGCTCAC AGGTCATTCG GAGGACTCAG
ACCACGGCCA CCATCATGGA GTGCAGGGCC TGCCCTCCTG TGTCCCGCGT CGGCAGCACG
CCCCACATCC AGGGTGGCGG CAGAAGGTCT GAGCAGGCCG CACCGAAGTC AGAGCAGTAT
TTGACTCTGA GCAGTGCCGA AGACCTCACC GAGAGTGAGC TTGATGTGGC CTGGCCGCAG
AGCAGAGCCA AGCCTTTGCA CCAGAGACCT CGAGAGAGTG AGAAGCATGA CAAGAGGCCC
CCTCCTCCTT ATCCTGGTCC AGGGAAGCAA GCTGTAGTGG CATCCCAGCA GCCAGGAGAG
CCACTGTTGT GGAGGCCTCA GAGGCCAGAA GAAGGTTCCA GAACAGCTTT GGAAGAGGGA
AGCCAAACAG CTGAGCGAGA GCAGCAAGCC GCTGAGCAAA AACTGAGCAG CGCCTACTCC
ACTCCCGCCA GCGACCAGGA CAGTAAGACT TTGGCTGAAC CCAACTGGCT CGATTGGCAG
AGAGAGCGGT GGCAGATCTG GGAGCTCTTA TCAACCGACA ACCCCGATGC CCTCCCGGAA
ACGCTGGTAT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_011217815.1 CDS 506..2917 Translation
Target ORF information:
RefSeq Version XM_011219513.2 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca Rho GTPase activating protein 6 (ARHGAP6), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_011219513.2
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
2401ATGGGGGACC CGGTATCCCG CGAGAAACCG CAGCTGCACT ACGCGGGTGA TTTCACCTGG
AACAGCATGT CGGGCCGCAG TGTGCGGCTG AGATCCGTCC CCATCCAGAG TCTGTCAGAG
CTGGAGCGAG CCCGGCTGCA GGAAGTGGCT TTTTATCAGT TGCAGCAGGA CTGTGACCTG
AGCTGTCCCA TCACCATTCC CAAAGATGGA CAGAAGAGAA AGAAATCTTT GCGAAAGAAA
CTGGATTCAC TAGGAAAGGA GAAAAACAAA GACAGAGAAT TCATCCCGCA GGCATTTGGA
ATGCCTTTAT CCCAAGTCAT TGCAAATGAC CGGGCCTATA AACTCAAGCA GGACTCGCAG
AGGGACGAGC AGAAGGATGC GTCTGACTTT GTGGCTTCCC TCCTCCCGTT CGGAAATAAA
AGACACAACA AAGAACTCTC AAGCAGTAAC TCATCTCTCA GCTCCACCTC TGAAACACCA
AATGAGTCAA CATCCCCAAA CACCCCAGAA CCGGCTCCTC GGGCCAGGAG GAGGGGCGCG
ATGTCAGTGG ATTCTATCAC AGATCTTGAT GACAATCAGT CTCGACTGCT AGAAGCTTTA
CAACTCTCCT TGCCTGCCGA GGCTCAGAGT AAAAAAGAAA AAGCCAGAGA TAAGAAACTC
AGTCTGAATC CCATTTACAG ACAGGTCCCC AGGCTGGTGG ACAGCTGCTG TCAGCATCTA
GAAAAACATG GCCTCCAGAC GGTGGGGATA TTCCGAGTTG GAAGCTCAAA AAAGAGAGTG
AGACAATTAC GTGAGGAATT TGACCGTGGG GTCGATGTCT CTCTGGAGGA AGAGCACAGC
GTCCATGATG TGGCTGCCTT GCTGAAGGAG TTCCTGAGGG ACATGCCGGA CCCCCTCCTC
ACCAGGGAGC TGTACACAGC CTTCATCAAT ACTCTCTTGT TGGAACCAGA GGAACAGCTG
GGTACCTTGC AGCTCCTCGT CTACCTTCTA CCTCCCTGTA ACTGCGACAC CCTCCACCGC
CTCCTACAGT TCCTCTCCAT GGTGGCCAAG CACGCCAACG ACAACGTCAG CAAAGATGGG
CAAGAGGTCA CTGGGAACAA AATGACCTCT CTAAACTTGG CCACCATATT TGGACCCAAC
CTGCTGCACA AGCAGAAATC ATCAGACAAA GAATTCTCTG TCCAGAGCTC AGCCCGGGCT
GAGGAGAGCA CAGCCATCAT TGCTGTGGTG CAGAAAATGA TTGAAAATTA TGAAGCCCTG
TTCATGGTTC CTCCAGATCT CCAGAACGAA GTGCTGATCA GCCTGTTGGA GACCGATCCC
GATGTGGTGG ACTATTTGCT CAGAAGAAAG GCCTCGCAGT CATCAAGCCC TGACATGTTG
AGATCGGAAG TTTCCTTTTC TGTGGGAGGA AGGCATTCGT CCACTGACTC CAACAAGGCC
TCCAGCGGAG ACCTCTCCCC ATATGACAAC AACTCCCCAG TGCTGTCTGA GCGCTCCTTG
CTGGCTATGC AAGAGGATGC GGCCCCGGGG GGCTCGGAGA AGCTTTACAA AGGACCGGAG
CGGTATGTGC TGGTGAGCCA CTTGCCATCG TCGGAATCAA GGGAGAGTTC TCCTGGACCA
AGGCTTGGCA AAGATATGTC AGAGGAGCCT TTCAATATCT GGGGAACTTG GCATTCAACA
TTAAAAAGTG GTTCCAAAGA CCCAGGAATG ACAGGTTCCT ATGGAGACAT TTTTGAAAGC
AGCTCTCTAC GACCGGGGCC ATGCTCCCTT TCTCAAGGGA ACCTGTCCCC GAATTGGCCC
CGGTGGCAGG GGAGCCCCAC AGAACTGGAA AGTGGCTCAC AGGTCATTCG GAGGACTCAG
ACCACGGCCA CCATCATGGA GTGCAGGGCC TGCCCTCCTG TGTCCCGCGT CGGCAGCACG
CCCCACATCC AGGGTGGCGG CAGAAGGTCT GAGCAGGCCG CACCGAAGTC AGAGCAGTAT
TTGACTCTGA GCAGTGCCGA AGACCTCACC GAGAGTGAGC TTGATGTGGC CTGGCCGCAG
AGCAGAGCCA AGCCTTTGCA CCAGAGACCT CGAGAGAGTG AGAAGCATGA CAAGAGGCCC
CCTCCTCCTT ATCCTGGTCC AGGGAAGCAA GCTGTAGTGG CATCCCAGCA GCCAGGAGAG
CCACTGTTGT GGAGGCCTCA GAGGCCAGAA GAAGGTTCCA GAACAGCTTT GGAAGAGGGA
AGCCAAACAG CTGAGCGAGA GCAGCAAGCC GCTGAGCAAA AACTGAGCAG CGCCTACTCC
ACTCCCGCCA GCGACCAGGA CAGTAAGACT TTGGCTGAAC CCAACTGGCT CGATTGGCAG
AGAGAGCGGT GGCAGATCTG GGAGCTCTTA TCAACCGACA ACCCCGATGC CCTCCCGGAA
ACGCTGGTAT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc20981 Clone ID Related Accession (Same CDS sequence) XM_019795052.1 , XM_011219516.2 Accession Version XM_019795052.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2346bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product rho GTPase-activating protein 6 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217364.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
2341ATGTCGGGCC GCAGTGTGCG GCTGAGATCC GTCCCCATCC AGAGTCTGTC AGAGCTGGAG
CGAGCCCGGC TGCAGGAAGT GGCTTTTTAT CAGTTGCAGC AGGACTGTGA CCTGAGCTGT
CCCATCACCA TTCCCAAAGA TGGACAGAAG AGAAAGAAAT CTTTGCGAAA GAAACTGGAT
TCACTAGGAA AGGAGAAAAA CAAAGACAGA GAATTCATCC CGCAGGCATT TGGAATGCCT
TTATCCCAAG TCATTGCAAA TGACCGGGCC TATAAACTCA AGCAGGACTC GCAGAGGGAC
GAGCAGAAGG ATGCGTCTGA CTTTGTGGCT TCCCTCCTCC CGTTCGGAAA TAAAAGACAC
AACAAAGAAC TCTCAAGCAG TAACTCATCT CTCAGCTCCA CCTCTGAAAC ACCAAATGAG
TCAACATCCC CAAACACCCC AGAACCGGCT CCTCGGGCCA GGAGGAGGGG CGCGATGTCA
GTGGATTCTA TCACAGATCT TGATGACAAT CAGTCTCGAC TGCTAGAAGC TTTACAACTC
TCCTTGCCTG CCGAGGCTCA GAGTAAAAAA GAAAAAGCCA GAGATAAGAA ACTCAGTCTG
AATCCCATTT ACAGACAGGT CCCCAGGCTG GTGGACAGCT GCTGTCAGCA TCTAGAAAAA
CATGGCCTCC AGACGGTGGG GATATTCCGA GTTGGAAGCT CAAAAAAGAG AGTGAGACAA
TTACGTGAGG AATTTGACCG TGGGGTCGAT GTCTCTCTGG AGGAAGAGCA CAGCGTCCAT
GATGTGGCTG CCTTGCTGAA GGAGTTCCTG AGGGACATGC CGGACCCCCT CCTCACCAGG
GAGCTGTACA CAGCCTTCAT CAATACTCTC TTGTTGGAAC CAGAGGAACA GCTGGGTACC
TTGCAGCTCC TCGTCTACCT TCTACCTCCC TGTAACTGCG ACACCCTCCA CCGCCTCCTA
CAGTTCCTCT CCATGGTGGC CAAGCACGCC AACGACAACG TCAGCAAAGA TGGGCAAGAG
GTCACTGGGA ACAAAATGAC CTCTCTAAAC TTGGCCACCA TATTTGGACC CAACCTGCTG
CACAAGCAGA AATCATCAGA CAAAGAATTC TCTGTCCAGA GCTCAGCCCG GGCTGAGGAG
AGCACAGCCA TCATTGCTGT GGTGCAGAAA ATGATTGAAA ATTATGAAGC CCTGTTCATG
GTTCCTCCAG ATCTCCAGAA CGAAGTGCTG ATCAGCCTGT TGGAGACCGA TCCCGATGTG
GTGGACTATT TGCTCAGAAG AAAGGCCTCG CAGTCATCAA GCCCTGACAT GTTGAGATCG
GAAGTTTCCT TTTCTGTGGG AGGAAGGCAT TCGTCCACTG ACTCCAACAA GGCCTCCAGC
GGAGACCTCT CCCCATATGA CAACAACTCC CCAGTGCTGT CTGAGCGCTC CTTGCTGGCT
ATGCAAGAGG ATGCGGCCCC GGGGGGCTCG GAGAAGCTTT ACAAAGGACC GGAGCGGTAT
GTGCTGGTGA GCCACTTGCC ATCGTCGGAA TCAAGGGAGA GTTCTCCTGG ACCAAGGCTT
GGCAAAGATA TGTCAGAGGA GCCTTTCAAT ATCTGGGGAA CTTGGCATTC AACATTAAAA
AGTGGTTCCA AAGACCCAGG AATGACAGGT TCCTATGGAG ACATTTTTGA AAGCAGCTCT
CTACGACCGG GGCCATGCTC CCTTTCTCAA GGGAACCTGT CCCCGAATTG GCCCCGGTGG
CAGGGGAGCC CCACAGAACT GGAAAGTGGC TCACAGGTCA TTCGGAGGAC TCAGACCACG
GCCACCATCA TGGAGTGCAG GGCCTGCCCT CCTGTGTCCC GCGTCGGCAG CACGCCCCAC
ATCCAGGGTG GCGGCAGAAG GTCTGAGCAG GCCGCACCGA AGTCAGAGCA GTATTTGACT
CTGAGCAGTG CCGAAGACCT CACCGAGAGT GAGCTTGATG TGGCCTGGCC GCAGAGCAGA
GCCAAGCCTT TGCACCAGAG ACCTCGAGAG AGTGAGAAGC ATGACAAGAG GCCCCCTCCT
CCTTATCCTG GTCCAGGGAA GCAAGCTGTA GTGGCATCCC AGCAGCCAGG AGAGCCACTG
TTGTGGAGGC CTCAGAGGCC AGAAGAAGGT TCCAGAACAG CTTTGGAAGA GGGAAGCCAA
ACAGCTGAGC GAGAGCAGCA AGCCGCTGAG CAAAAACTGA GCAGCGCCTA CTCCACTCCC
GCCAGCGACC AGGACAGTAA GACTTTGGCT GAACCCAACT GGCTCGATTG GCAGAGAGAG
CGGTGGCAGA TCTGGGAGCT CTTATCAACC GACAACCCCG ATGCCCTCCC GGAAACGCTG
GTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019650611.1 CDS 43..2388 Translation
Target ORF information:
RefSeq Version XM_019795052.1 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca Rho GTPase activating protein 6 (ARHGAP6), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_019795052.1
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
2341ATGTCGGGCC GCAGTGTGCG GCTGAGATCC GTCCCCATCC AGAGTCTGTC AGAGCTGGAG
CGAGCCCGGC TGCAGGAAGT GGCTTTTTAT CAGTTGCAGC AGGACTGTGA CCTGAGCTGT
CCCATCACCA TTCCCAAAGA TGGACAGAAG AGAAAGAAAT CTTTGCGAAA GAAACTGGAT
TCACTAGGAA AGGAGAAAAA CAAAGACAGA GAATTCATCC CGCAGGCATT TGGAATGCCT
TTATCCCAAG TCATTGCAAA TGACCGGGCC TATAAACTCA AGCAGGACTC GCAGAGGGAC
GAGCAGAAGG ATGCGTCTGA CTTTGTGGCT TCCCTCCTCC CGTTCGGAAA TAAAAGACAC
AACAAAGAAC TCTCAAGCAG TAACTCATCT CTCAGCTCCA CCTCTGAAAC ACCAAATGAG
TCAACATCCC CAAACACCCC AGAACCGGCT CCTCGGGCCA GGAGGAGGGG CGCGATGTCA
GTGGATTCTA TCACAGATCT TGATGACAAT CAGTCTCGAC TGCTAGAAGC TTTACAACTC
TCCTTGCCTG CCGAGGCTCA GAGTAAAAAA GAAAAAGCCA GAGATAAGAA ACTCAGTCTG
AATCCCATTT ACAGACAGGT CCCCAGGCTG GTGGACAGCT GCTGTCAGCA TCTAGAAAAA
CATGGCCTCC AGACGGTGGG GATATTCCGA GTTGGAAGCT CAAAAAAGAG AGTGAGACAA
TTACGTGAGG AATTTGACCG TGGGGTCGAT GTCTCTCTGG AGGAAGAGCA CAGCGTCCAT
GATGTGGCTG CCTTGCTGAA GGAGTTCCTG AGGGACATGC CGGACCCCCT CCTCACCAGG
GAGCTGTACA CAGCCTTCAT CAATACTCTC TTGTTGGAAC CAGAGGAACA GCTGGGTACC
TTGCAGCTCC TCGTCTACCT TCTACCTCCC TGTAACTGCG ACACCCTCCA CCGCCTCCTA
CAGTTCCTCT CCATGGTGGC CAAGCACGCC AACGACAACG TCAGCAAAGA TGGGCAAGAG
GTCACTGGGA ACAAAATGAC CTCTCTAAAC TTGGCCACCA TATTTGGACC CAACCTGCTG
CACAAGCAGA AATCATCAGA CAAAGAATTC TCTGTCCAGA GCTCAGCCCG GGCTGAGGAG
AGCACAGCCA TCATTGCTGT GGTGCAGAAA ATGATTGAAA ATTATGAAGC CCTGTTCATG
GTTCCTCCAG ATCTCCAGAA CGAAGTGCTG ATCAGCCTGT TGGAGACCGA TCCCGATGTG
GTGGACTATT TGCTCAGAAG AAAGGCCTCG CAGTCATCAA GCCCTGACAT GTTGAGATCG
GAAGTTTCCT TTTCTGTGGG AGGAAGGCAT TCGTCCACTG ACTCCAACAA GGCCTCCAGC
GGAGACCTCT CCCCATATGA CAACAACTCC CCAGTGCTGT CTGAGCGCTC CTTGCTGGCT
ATGCAAGAGG ATGCGGCCCC GGGGGGCTCG GAGAAGCTTT ACAAAGGACC GGAGCGGTAT
GTGCTGGTGA GCCACTTGCC ATCGTCGGAA TCAAGGGAGA GTTCTCCTGG ACCAAGGCTT
GGCAAAGATA TGTCAGAGGA GCCTTTCAAT ATCTGGGGAA CTTGGCATTC AACATTAAAA
AGTGGTTCCA AAGACCCAGG AATGACAGGT TCCTATGGAG ACATTTTTGA AAGCAGCTCT
CTACGACCGG GGCCATGCTC CCTTTCTCAA GGGAACCTGT CCCCGAATTG GCCCCGGTGG
CAGGGGAGCC CCACAGAACT GGAAAGTGGC TCACAGGTCA TTCGGAGGAC TCAGACCACG
GCCACCATCA TGGAGTGCAG GGCCTGCCCT CCTGTGTCCC GCGTCGGCAG CACGCCCCAC
ATCCAGGGTG GCGGCAGAAG GTCTGAGCAG GCCGCACCGA AGTCAGAGCA GTATTTGACT
CTGAGCAGTG CCGAAGACCT CACCGAGAGT GAGCTTGATG TGGCCTGGCC GCAGAGCAGA
GCCAAGCCTT TGCACCAGAG ACCTCGAGAG AGTGAGAAGC ATGACAAGAG GCCCCCTCCT
CCTTATCCTG GTCCAGGGAA GCAAGCTGTA GTGGCATCCC AGCAGCCAGG AGAGCCACTG
TTGTGGAGGC CTCAGAGGCC AGAAGAAGGT TCCAGAACAG CTTTGGAAGA GGGAAGCCAA
ACAGCTGAGC GAGAGCAGCA AGCCGCTGAG CAAAAACTGA GCAGCGCCTA CTCCACTCCC
GCCAGCGACC AGGACAGTAA GACTTTGGCT GAACCCAACT GGCTCGATTG GCAGAGAGAG
CGGTGGCAGA TCTGGGAGCT CTTATCAACC GACAACCCCG ATGCCCTCCC GGAAACGCTG
GTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc20981 Clone ID Related Accession (Same CDS sequence) XM_019795052.1 , XM_011219516.2 Accession Version XM_011219516.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2346bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product rho GTPase-activating protein 6 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217364.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011219516.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
2341ATGTCGGGCC GCAGTGTGCG GCTGAGATCC GTCCCCATCC AGAGTCTGTC AGAGCTGGAG
CGAGCCCGGC TGCAGGAAGT GGCTTTTTAT CAGTTGCAGC AGGACTGTGA CCTGAGCTGT
CCCATCACCA TTCCCAAAGA TGGACAGAAG AGAAAGAAAT CTTTGCGAAA GAAACTGGAT
TCACTAGGAA AGGAGAAAAA CAAAGACAGA GAATTCATCC CGCAGGCATT TGGAATGCCT
TTATCCCAAG TCATTGCAAA TGACCGGGCC TATAAACTCA AGCAGGACTC GCAGAGGGAC
GAGCAGAAGG ATGCGTCTGA CTTTGTGGCT TCCCTCCTCC CGTTCGGAAA TAAAAGACAC
AACAAAGAAC TCTCAAGCAG TAACTCATCT CTCAGCTCCA CCTCTGAAAC ACCAAATGAG
TCAACATCCC CAAACACCCC AGAACCGGCT CCTCGGGCCA GGAGGAGGGG CGCGATGTCA
GTGGATTCTA TCACAGATCT TGATGACAAT CAGTCTCGAC TGCTAGAAGC TTTACAACTC
TCCTTGCCTG CCGAGGCTCA GAGTAAAAAA GAAAAAGCCA GAGATAAGAA ACTCAGTCTG
AATCCCATTT ACAGACAGGT CCCCAGGCTG GTGGACAGCT GCTGTCAGCA TCTAGAAAAA
CATGGCCTCC AGACGGTGGG GATATTCCGA GTTGGAAGCT CAAAAAAGAG AGTGAGACAA
TTACGTGAGG AATTTGACCG TGGGGTCGAT GTCTCTCTGG AGGAAGAGCA CAGCGTCCAT
GATGTGGCTG CCTTGCTGAA GGAGTTCCTG AGGGACATGC CGGACCCCCT CCTCACCAGG
GAGCTGTACA CAGCCTTCAT CAATACTCTC TTGTTGGAAC CAGAGGAACA GCTGGGTACC
TTGCAGCTCC TCGTCTACCT TCTACCTCCC TGTAACTGCG ACACCCTCCA CCGCCTCCTA
CAGTTCCTCT CCATGGTGGC CAAGCACGCC AACGACAACG TCAGCAAAGA TGGGCAAGAG
GTCACTGGGA ACAAAATGAC CTCTCTAAAC TTGGCCACCA TATTTGGACC CAACCTGCTG
CACAAGCAGA AATCATCAGA CAAAGAATTC TCTGTCCAGA GCTCAGCCCG GGCTGAGGAG
AGCACAGCCA TCATTGCTGT GGTGCAGAAA ATGATTGAAA ATTATGAAGC CCTGTTCATG
GTTCCTCCAG ATCTCCAGAA CGAAGTGCTG ATCAGCCTGT TGGAGACCGA TCCCGATGTG
GTGGACTATT TGCTCAGAAG AAAGGCCTCG CAGTCATCAA GCCCTGACAT GTTGAGATCG
GAAGTTTCCT TTTCTGTGGG AGGAAGGCAT TCGTCCACTG ACTCCAACAA GGCCTCCAGC
GGAGACCTCT CCCCATATGA CAACAACTCC CCAGTGCTGT CTGAGCGCTC CTTGCTGGCT
ATGCAAGAGG ATGCGGCCCC GGGGGGCTCG GAGAAGCTTT ACAAAGGACC GGAGCGGTAT
GTGCTGGTGA GCCACTTGCC ATCGTCGGAA TCAAGGGAGA GTTCTCCTGG ACCAAGGCTT
GGCAAAGATA TGTCAGAGGA GCCTTTCAAT ATCTGGGGAA CTTGGCATTC AACATTAAAA
AGTGGTTCCA AAGACCCAGG AATGACAGGT TCCTATGGAG ACATTTTTGA AAGCAGCTCT
CTACGACCGG GGCCATGCTC CCTTTCTCAA GGGAACCTGT CCCCGAATTG GCCCCGGTGG
CAGGGGAGCC CCACAGAACT GGAAAGTGGC TCACAGGTCA TTCGGAGGAC TCAGACCACG
GCCACCATCA TGGAGTGCAG GGCCTGCCCT CCTGTGTCCC GCGTCGGCAG CACGCCCCAC
ATCCAGGGTG GCGGCAGAAG GTCTGAGCAG GCCGCACCGA AGTCAGAGCA GTATTTGACT
CTGAGCAGTG CCGAAGACCT CACCGAGAGT GAGCTTGATG TGGCCTGGCC GCAGAGCAGA
GCCAAGCCTT TGCACCAGAG ACCTCGAGAG AGTGAGAAGC ATGACAAGAG GCCCCCTCCT
CCTTATCCTG GTCCAGGGAA GCAAGCTGTA GTGGCATCCC AGCAGCCAGG AGAGCCACTG
TTGTGGAGGC CTCAGAGGCC AGAAGAAGGT TCCAGAACAG CTTTGGAAGA GGGAAGCCAA
ACAGCTGAGC GAGAGCAGCA AGCCGCTGAG CAAAAACTGA GCAGCGCCTA CTCCACTCCC
GCCAGCGACC AGGACAGTAA GACTTTGGCT GAACCCAACT GGCTCGATTG GCAGAGAGAG
CGGTGGCAGA TCTGGGAGCT CTTATCAACC GACAACCCCG ATGCCCTCCC GGAAACGCTG
GTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_011217818.1 CDS 270..2615 Translation
Target ORF information:
RefSeq Version XM_011219516.2 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca Rho GTPase activating protein 6 (ARHGAP6), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_011219516.2
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
2341ATGTCGGGCC GCAGTGTGCG GCTGAGATCC GTCCCCATCC AGAGTCTGTC AGAGCTGGAG
CGAGCCCGGC TGCAGGAAGT GGCTTTTTAT CAGTTGCAGC AGGACTGTGA CCTGAGCTGT
CCCATCACCA TTCCCAAAGA TGGACAGAAG AGAAAGAAAT CTTTGCGAAA GAAACTGGAT
TCACTAGGAA AGGAGAAAAA CAAAGACAGA GAATTCATCC CGCAGGCATT TGGAATGCCT
TTATCCCAAG TCATTGCAAA TGACCGGGCC TATAAACTCA AGCAGGACTC GCAGAGGGAC
GAGCAGAAGG ATGCGTCTGA CTTTGTGGCT TCCCTCCTCC CGTTCGGAAA TAAAAGACAC
AACAAAGAAC TCTCAAGCAG TAACTCATCT CTCAGCTCCA CCTCTGAAAC ACCAAATGAG
TCAACATCCC CAAACACCCC AGAACCGGCT CCTCGGGCCA GGAGGAGGGG CGCGATGTCA
GTGGATTCTA TCACAGATCT TGATGACAAT CAGTCTCGAC TGCTAGAAGC TTTACAACTC
TCCTTGCCTG CCGAGGCTCA GAGTAAAAAA GAAAAAGCCA GAGATAAGAA ACTCAGTCTG
AATCCCATTT ACAGACAGGT CCCCAGGCTG GTGGACAGCT GCTGTCAGCA TCTAGAAAAA
CATGGCCTCC AGACGGTGGG GATATTCCGA GTTGGAAGCT CAAAAAAGAG AGTGAGACAA
TTACGTGAGG AATTTGACCG TGGGGTCGAT GTCTCTCTGG AGGAAGAGCA CAGCGTCCAT
GATGTGGCTG CCTTGCTGAA GGAGTTCCTG AGGGACATGC CGGACCCCCT CCTCACCAGG
GAGCTGTACA CAGCCTTCAT CAATACTCTC TTGTTGGAAC CAGAGGAACA GCTGGGTACC
TTGCAGCTCC TCGTCTACCT TCTACCTCCC TGTAACTGCG ACACCCTCCA CCGCCTCCTA
CAGTTCCTCT CCATGGTGGC CAAGCACGCC AACGACAACG TCAGCAAAGA TGGGCAAGAG
GTCACTGGGA ACAAAATGAC CTCTCTAAAC TTGGCCACCA TATTTGGACC CAACCTGCTG
CACAAGCAGA AATCATCAGA CAAAGAATTC TCTGTCCAGA GCTCAGCCCG GGCTGAGGAG
AGCACAGCCA TCATTGCTGT GGTGCAGAAA ATGATTGAAA ATTATGAAGC CCTGTTCATG
GTTCCTCCAG ATCTCCAGAA CGAAGTGCTG ATCAGCCTGT TGGAGACCGA TCCCGATGTG
GTGGACTATT TGCTCAGAAG AAAGGCCTCG CAGTCATCAA GCCCTGACAT GTTGAGATCG
GAAGTTTCCT TTTCTGTGGG AGGAAGGCAT TCGTCCACTG ACTCCAACAA GGCCTCCAGC
GGAGACCTCT CCCCATATGA CAACAACTCC CCAGTGCTGT CTGAGCGCTC CTTGCTGGCT
ATGCAAGAGG ATGCGGCCCC GGGGGGCTCG GAGAAGCTTT ACAAAGGACC GGAGCGGTAT
GTGCTGGTGA GCCACTTGCC ATCGTCGGAA TCAAGGGAGA GTTCTCCTGG ACCAAGGCTT
GGCAAAGATA TGTCAGAGGA GCCTTTCAAT ATCTGGGGAA CTTGGCATTC AACATTAAAA
AGTGGTTCCA AAGACCCAGG AATGACAGGT TCCTATGGAG ACATTTTTGA AAGCAGCTCT
CTACGACCGG GGCCATGCTC CCTTTCTCAA GGGAACCTGT CCCCGAATTG GCCCCGGTGG
CAGGGGAGCC CCACAGAACT GGAAAGTGGC TCACAGGTCA TTCGGAGGAC TCAGACCACG
GCCACCATCA TGGAGTGCAG GGCCTGCCCT CCTGTGTCCC GCGTCGGCAG CACGCCCCAC
ATCCAGGGTG GCGGCAGAAG GTCTGAGCAG GCCGCACCGA AGTCAGAGCA GTATTTGACT
CTGAGCAGTG CCGAAGACCT CACCGAGAGT GAGCTTGATG TGGCCTGGCC GCAGAGCAGA
GCCAAGCCTT TGCACCAGAG ACCTCGAGAG AGTGAGAAGC ATGACAAGAG GCCCCCTCCT
CCTTATCCTG GTCCAGGGAA GCAAGCTGTA GTGGCATCCC AGCAGCCAGG AGAGCCACTG
TTGTGGAGGC CTCAGAGGCC AGAAGAAGGT TCCAGAACAG CTTTGGAAGA GGGAAGCCAA
ACAGCTGAGC GAGAGCAGCA AGCCGCTGAG CAAAAACTGA GCAGCGCCTA CTCCACTCCC
GCCAGCGACC AGGACAGTAA GACTTTGGCT GAACCCAACT GGCTCGATTG GCAGAGAGAG
CGGTGGCAGA TCTGGGAGCT CTTATCAACC GACAACCCCG ATGCCCTCCC GGAAACGCTG
GTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc89793 Clone ID Related Accession (Same CDS sequence) XM_019795050.1 Accession Version XM_019795050.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2946bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product rho GTPase-activating protein 6 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217364.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
2941ATGTCTGCCC AGAGCCTACT CCACAGTGTC TTCTCCTGCT CCTCGCCGGC CTCGGGTGGC
GCGGCCTCGG CCAAGGGCTT CTCCAAGAGG AAGCTGCGCC AGACCCGCAG CTTGGACCCG
GCCCTGATCG GCGGCTGTGG GGGCGAGGCG GGCATGGAGG GCAGCTCGCG GGGGGCCACC
GGGGGCCGCC TCTGCTCCCC ACTGTCTCCA GCCGAGGGTC TCAGCCCCCG CTCGGCGTCC
TCCCCTCGGG GTCCACACCC CCGGGCCAAC CGACTCCCGC CCCCTAGACC CCTCTGCTCA
TCCTTCTCCA CGCCCAGTAC CCCTCAGGAG AAGTCGCCCT CTGGCAGCTT CCACTTTGAC
TATGAGGTCC CCCTGGGTCG CGGAGGCCTC AAGAAGAGCA TGGCCTGGGA CCTGCCTTCA
GTCTTGGCTG GGCCTGGCAG TGGCCGCAGC GCCATCCTCT GCTCCACCGG GGGTGGCCCT
AATGGCATCT TCACTTCTCC CAGGAGGTGG CTTCAGCAGA GGAAGTTCCA GTCCCCCCCC
AACAGCCACA GCCACCCCTA CGTTGTGTGG AAGTCCGAGG GTGATTTCAC CTGGAACAGC
ATGTCGGGCC GCAGTGTGCG GCTGAGATCC GTCCCCATCC AGAGTCTGTC AGAGCTGGAG
CGAGCCCGGC TGCAGGAAGT GGCTTTTTAT CAGTTGCAGC AGGACTGTGA CCTGAGCTGT
CCCATCACCA TTCCCAAAGA TGGACAGAAG AGAAAGAAAT CTTTGCGAAA GAAACTGGAT
TCACTAGGAA AGGAGAAAAA CAAAGACAGA GAATTCATCC CGCAGGCATT TGGAATGCCT
TTATCCCAAG TCATTGCAAA TGACCGGGCC TATAAACTCA AGCAGGACTC GCAGAGGGAC
GAGCAGAAGG ATGCGTCTGA CTTTGTGGCT TCCCTCCTCC CGTTCGGAAA TAAAAGACAC
AACAAAGAAC TCTCAAGCAG TAACTCATCT CTCAGCTCCA CCTCTGAAAC ACCAAATGAG
TCAACATCCC CAAACACCCC AGAACCGGCT CCTCGGGCCA GGAGGAGGGG CGCGATGTCA
GTGGATTCTA TCACAGATCT TGATGACAAT CAGTCTCGAC TGCTAGAAGC TTTACAACTC
TCCTTGCCTG CCGAGGCTCA GAGTAAAAAA GAAAAAGCCA GAGATAAGAA ACTCAGTCTG
AATCCCATTT ACAGACAGGT CCCCAGGCTG GTGGACAGCT GCTGTCAGCA TCTAGAAAAA
CATGGCCTCC AGACGGTGGG GATATTCCGA GTTGGAAGCT CAAAAAAGAG AGTGAGACAA
TTACGTGAGG AATTTGACCG TGGGGTCGAT GTCTCTCTGG AGGAAGAGCA CAGCGTCCAT
GATGTGGCTG CCTTGCTGAA GGAGTTCCTG AGGGACATGC CGGACCCCCT CCTCACCAGG
GAGCTGTACA CAGCCTTCAT CAATACTCTC TTGTTGGAAC CAGAGGAACA GCTGGGTACC
TTGCAGCTCC TCGTCTACCT TCTACCTCCC TGTAACTGCG ACACCCTCCA CCGCCTCCTA
CAGTTCCTCT CCATGGTGGC CAAGCACGCC AACGACAACG TCAGCAAAGA TGGGCAAGAG
GTCACTGGGA ACAAAATGAC CTCTCTAAAC TTGGCCACCA TATTTGGACC CAACCTGCTG
CACAAGCAGA AATCATCAGA CAAAGAATTC TCTGTCCAGA GCTCAGCCCG GGCTGAGGAG
AGCACAGCCA TCATTGCTGT GGTGCAGAAA ATGATTGAAA ATTATGAAGC CCTGTTCATG
GTTCCTCCAG ATCTCCAGAA CGAAGTGCTG ATCAGCCTGT TGGAGACCGA TCCCGATGTG
GTGGACTATT TGCTCAGAAG AAAGGCCTCG CAGTCATCAA GCCCTGACAT GTTGAGATCG
GAAGTTTCCT TTTCTGTGGG AGGAAGGCAT TCGTCCACTG ACTCCAACAA GGCCTCCAGC
GGAGACCTCT CCCCATATGA CAACAACTCC CCAGTGCTGT CTGAGCGCTC CTTGCTGGCT
ATGCAAGAGG ATGCGGCCCC GGGGGGCTCG GAGAAGCTTT ACAAAGGACC GGAGCGGTAT
GTGCTGGTGA GCCACTTGCC ATCGTCGGAA TCAAGGGAGA GTTCTCCTGG ACCAAGGCTT
GGCAAAGATA TGTCAGAGGA GCCTTTCAAT ATCTGGGGAA CTTGGCATTC AACATTAAAA
AGTGGTTCCA AAGACCCAGG AATGACAGGT TCCTATGGAG ACATTTTTGA AAGCAGCTCT
CTACGACCGG GGCCATGCTC CCTTTCTCAA GGGAACCTGT CCCCGAATTG GCCCCGGTGG
CAGGGGAGCC CCACAGAACT GGAAAGTGGC TCACAGGTCA TTCGGAGGAC TCAGACCACG
GCCACCATCA TGGAGTGCAG GGCCTGCCCT CCTGTGTCCC GCGTCGGCAG CACGCCCCAC
ATCCAGGGTG GCGGCAGAAG GTCTGAGCAG GCCGCACCGA AGTCAGAGCA GTATTTGACT
CTGAGCAGTG CCGAAGACCT CACCGAGAGT GAGCTTGATG TGGCCTGGCC GCAGAGCAGA
GCCAAGCCTT TGCACCAGAG ACCTCGAGAG AGTGAGAAGC ATGACAAGAG GCCCCCTCCT
CCTTATCCTG GTCCAGGGAA GCAAGCTGTA GTGGCATCCC AGCAGCCAGG AGAGCCACTG
TTGTGGAGGC CTCAGAGGCC AGAAGAAGGT TCCAGAACAG CTTTGGAAGA GGGAAGCCAA
ACAGCTGAGC GAGAGCAGCA AGCCGCTGAG CAAAAACTGA GCAGCGCCTA CTCCACTCCC
GCCAGCGACC AGGACAGTAA GACTTTGGCT GAACCCAACT GGCTCGATTG GCAGAGAGAG
CGGTGGCAGA TCTGGGAGCT CTTATCAACC GACAACCCCG ATGCCCTCCC GGAAACGCTG
GTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019650609.1 CDS 404..3349 Translation
Target ORF information:
RefSeq Version XM_019795050.1 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca Rho GTPase activating protein 6 (ARHGAP6), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_019795050.1
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
2941ATGTCTGCCC AGAGCCTACT CCACAGTGTC TTCTCCTGCT CCTCGCCGGC CTCGGGTGGC
GCGGCCTCGG CCAAGGGCTT CTCCAAGAGG AAGCTGCGCC AGACCCGCAG CTTGGACCCG
GCCCTGATCG GCGGCTGTGG GGGCGAGGCG GGCATGGAGG GCAGCTCGCG GGGGGCCACC
GGGGGCCGCC TCTGCTCCCC ACTGTCTCCA GCCGAGGGTC TCAGCCCCCG CTCGGCGTCC
TCCCCTCGGG GTCCACACCC CCGGGCCAAC CGACTCCCGC CCCCTAGACC CCTCTGCTCA
TCCTTCTCCA CGCCCAGTAC CCCTCAGGAG AAGTCGCCCT CTGGCAGCTT CCACTTTGAC
TATGAGGTCC CCCTGGGTCG CGGAGGCCTC AAGAAGAGCA TGGCCTGGGA CCTGCCTTCA
GTCTTGGCTG GGCCTGGCAG TGGCCGCAGC GCCATCCTCT GCTCCACCGG GGGTGGCCCT
AATGGCATCT TCACTTCTCC CAGGAGGTGG CTTCAGCAGA GGAAGTTCCA GTCCCCCCCC
AACAGCCACA GCCACCCCTA CGTTGTGTGG AAGTCCGAGG GTGATTTCAC CTGGAACAGC
ATGTCGGGCC GCAGTGTGCG GCTGAGATCC GTCCCCATCC AGAGTCTGTC AGAGCTGGAG
CGAGCCCGGC TGCAGGAAGT GGCTTTTTAT CAGTTGCAGC AGGACTGTGA CCTGAGCTGT
CCCATCACCA TTCCCAAAGA TGGACAGAAG AGAAAGAAAT CTTTGCGAAA GAAACTGGAT
TCACTAGGAA AGGAGAAAAA CAAAGACAGA GAATTCATCC CGCAGGCATT TGGAATGCCT
TTATCCCAAG TCATTGCAAA TGACCGGGCC TATAAACTCA AGCAGGACTC GCAGAGGGAC
GAGCAGAAGG ATGCGTCTGA CTTTGTGGCT TCCCTCCTCC CGTTCGGAAA TAAAAGACAC
AACAAAGAAC TCTCAAGCAG TAACTCATCT CTCAGCTCCA CCTCTGAAAC ACCAAATGAG
TCAACATCCC CAAACACCCC AGAACCGGCT CCTCGGGCCA GGAGGAGGGG CGCGATGTCA
GTGGATTCTA TCACAGATCT TGATGACAAT CAGTCTCGAC TGCTAGAAGC TTTACAACTC
TCCTTGCCTG CCGAGGCTCA GAGTAAAAAA GAAAAAGCCA GAGATAAGAA ACTCAGTCTG
AATCCCATTT ACAGACAGGT CCCCAGGCTG GTGGACAGCT GCTGTCAGCA TCTAGAAAAA
CATGGCCTCC AGACGGTGGG GATATTCCGA GTTGGAAGCT CAAAAAAGAG AGTGAGACAA
TTACGTGAGG AATTTGACCG TGGGGTCGAT GTCTCTCTGG AGGAAGAGCA CAGCGTCCAT
GATGTGGCTG CCTTGCTGAA GGAGTTCCTG AGGGACATGC CGGACCCCCT CCTCACCAGG
GAGCTGTACA CAGCCTTCAT CAATACTCTC TTGTTGGAAC CAGAGGAACA GCTGGGTACC
TTGCAGCTCC TCGTCTACCT TCTACCTCCC TGTAACTGCG ACACCCTCCA CCGCCTCCTA
CAGTTCCTCT CCATGGTGGC CAAGCACGCC AACGACAACG TCAGCAAAGA TGGGCAAGAG
GTCACTGGGA ACAAAATGAC CTCTCTAAAC TTGGCCACCA TATTTGGACC CAACCTGCTG
CACAAGCAGA AATCATCAGA CAAAGAATTC TCTGTCCAGA GCTCAGCCCG GGCTGAGGAG
AGCACAGCCA TCATTGCTGT GGTGCAGAAA ATGATTGAAA ATTATGAAGC CCTGTTCATG
GTTCCTCCAG ATCTCCAGAA CGAAGTGCTG ATCAGCCTGT TGGAGACCGA TCCCGATGTG
GTGGACTATT TGCTCAGAAG AAAGGCCTCG CAGTCATCAA GCCCTGACAT GTTGAGATCG
GAAGTTTCCT TTTCTGTGGG AGGAAGGCAT TCGTCCACTG ACTCCAACAA GGCCTCCAGC
GGAGACCTCT CCCCATATGA CAACAACTCC CCAGTGCTGT CTGAGCGCTC CTTGCTGGCT
ATGCAAGAGG ATGCGGCCCC GGGGGGCTCG GAGAAGCTTT ACAAAGGACC GGAGCGGTAT
GTGCTGGTGA GCCACTTGCC ATCGTCGGAA TCAAGGGAGA GTTCTCCTGG ACCAAGGCTT
GGCAAAGATA TGTCAGAGGA GCCTTTCAAT ATCTGGGGAA CTTGGCATTC AACATTAAAA
AGTGGTTCCA AAGACCCAGG AATGACAGGT TCCTATGGAG ACATTTTTGA AAGCAGCTCT
CTACGACCGG GGCCATGCTC CCTTTCTCAA GGGAACCTGT CCCCGAATTG GCCCCGGTGG
CAGGGGAGCC CCACAGAACT GGAAAGTGGC TCACAGGTCA TTCGGAGGAC TCAGACCACG
GCCACCATCA TGGAGTGCAG GGCCTGCCCT CCTGTGTCCC GCGTCGGCAG CACGCCCCAC
ATCCAGGGTG GCGGCAGAAG GTCTGAGCAG GCCGCACCGA AGTCAGAGCA GTATTTGACT
CTGAGCAGTG CCGAAGACCT CACCGAGAGT GAGCTTGATG TGGCCTGGCC GCAGAGCAGA
GCCAAGCCTT TGCACCAGAG ACCTCGAGAG AGTGAGAAGC ATGACAAGAG GCCCCCTCCT
CCTTATCCTG GTCCAGGGAA GCAAGCTGTA GTGGCATCCC AGCAGCCAGG AGAGCCACTG
TTGTGGAGGC CTCAGAGGCC AGAAGAAGGT TCCAGAACAG CTTTGGAAGA GGGAAGCCAA
ACAGCTGAGC GAGAGCAGCA AGCCGCTGAG CAAAAACTGA GCAGCGCCTA CTCCACTCCC
GCCAGCGACC AGGACAGTAA GACTTTGGCT GAACCCAACT GGCTCGATTG GCAGAGAGAG
CGGTGGCAGA TCTGGGAGCT CTTATCAACC GACAACCCCG ATGCCCTCCC GGAAACGCTG
GTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc89794 Clone ID Related Accession (Same CDS sequence) XM_019795051.1 Accession Version XM_019795051.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2865bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product rho GTPase-activating protein 6 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217364.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
2821ATGTCTGCCC AGAGCCTACT CCACAGTGTC TTCTCCTGCT CCTCGCCGGC CTCGGGTGGC
GCGGCCTCGG CCAAGGGCTT CTCCAAGAGG AAGCTGCGCC AGACCCGCAG CTTGGACCCG
GCCCTGATCG GCGGCTGTGG GGGCGAGGCG GGCATGGAGG GCAGCTCGCG GGGGGCCACC
GGGGGCCGCC TCTGCTCCCC ACTGTCTCCA GCCGAGGGTC TCAGCCCCCG CTCGGCGTCC
TCCCCTCGGG GTCCACACCC CCGGGCCAAC CGACTCCCGC CCCCTAGACC CCTCTGCTCA
TCCTTCTCCA CGCCCAGTAC CCCTCAGGAG AAGTCGCCCT CTGGCAGCTT CCACTTTGAC
TATGAGGTCC CCCTGGGTCG CGGAGGCCTC AAGAAGAGCA TGGCCTGGGA CCTGCCTTCA
GTCTTGGCTG GGCCTGGCAG TGGCCGCAGC GCCATCCTCT GCTCCACCGG GGGTGGCCCT
AATGGCATCT TCACTTCTCC CAGGAGGTGG CTTCAGCAGA GGAAGTTCCA GTCCCCCCCC
AACAGCCACA GCCACCCCTA CGTTGTGTGG AAGTCCGAGG GTGATTTCAC CTGGAACAGC
ATGTCGGGCC GCAGTGTGCG GCTGAGATCC GTCCCCATCC AGAGTCTGTC AGAGCTGGAG
CGAGCCCGGC TGCAGGAAGT GGCTTTTTAT CAGTTGCAGC AGGACTGTGA CCTGAGCTGT
CCCATCACCA TTCCCAAAGA TGGACAGAAG AGAAAGAAAT CTTTGCGAAA GAAACTGGAT
TCACTAGGAA AGGAGAAAAA CAAAGACAGA GAATTCATCC CGCAGGCATT TGGAATGCCT
TTATCCCAAG TCATTGCAAA TGACCGGGCC TATAAACTCA AGCAGGACTC GCAGAGGGAC
GAGCAGAAGG ATGCGTCTGA CTTTGTGGCT TCCCTCCTCC CGTTCGGAAA TAAAAGACAC
AACAAAGAAC TCTCAAGCAG TAACTCATCT CTCAGCTCCA CCTCTGAAAC ACCAAATGAG
TCAACATCCC CAAACACCCC AGAACCGGCT CCTCGGGCCA GGAGGAGGGG CGCGATGTCA
GTGGATTCTA TCACAGATCT TGATGACAAT CAGTCTCGAC TGCTAGAAGC TTTACAACTC
TCCTTGCCTG CCGAGGCTCA GAGTAAAAAA GAAAAAGCCA GAGATAAGAA ACTCAGTCTG
AATCCCATTT ACAGACAGGT CCCCAGGCTG GTGGACAGCT GCTGTCAGCA TCTAGAAAAA
CATGGCCTCC AGACGGTGGG GATATTCCGA GTTGGAAGCT CAAAAAAGAG AGTGAGACAA
TTACGTGAGG AATTTGACCG TGGGGTCGAT GTCTCTCTGG AGGAAGAGCA CAGCGTCCAT
GATGTGGCTG CCTTGCTGAA GGAGTTCCTG AGGGACATGC CGGACCCCCT CCTCACCAGG
GAGCTGTACA CAGCCTTCAT CAATACTCTC TTGTTGGAAC CAGAGGAACA GCTGGGTACC
TTGCAGCTCC TCGTCTACCT TCTACCTCCC TGTAACTGCG ACACCCTCCA CCGCCTCCTA
CAGTTCCTCT CCATGGTGGC CAAGCACGCC AACGACAACG TCAGCAAAGA TGGGCAAGAG
GTCACTGGGA ACAAAATGAC CTCTCTAAAC TTGGCCACCA TATTTGGACC CAACCTGCTG
CACAAGCAGA AATCATCAGA CAAAGAATTC TCTGTCCAGA GCTCAGCCCG GGCTGAGGAG
AGCACAGCCA TCATTGCTGT GGTGCAGAAA ATGATTGAAA ATTATGAAGC CCTGTTCATG
GTTCCTCCAG ATCTCCAGAA CGAAGTGCTG ATCAGCCTGT TGGAGACCGA TCCCGATGTG
GTGGACTATT TGCTCAGAAG AAAGGCCTCG CAGTCATCAA GCCCTGACAT GTTGAGATCG
GAAGTTTCCT TTTCTGTGGG AGGAAGGCAT TCGTCCACTG ACTCCAACAA GGCCTCCAGC
GGAGACCTCT CCCCATATGA CAACAACTCC CCAGTGCTGT CTGAGCGCTC CTTGCTGGCT
ATGCAAGAGG ATGCGGCCCC GGGGGGCTCG GAGAAGCTTT ACAAAGGACC GGAGCGGTAT
GTGCTGGTGA GCCACTTGCC ATCGTCGGAA TCAAGGGAGA GTTCTCCTGG ACCAAGGCTT
GGCAAAGGTT CCTATGGAGA CATTTTTGAA AGCAGCTCTC TACGACCGGG GCCATGCTCC
CTTTCTCAAG GGAACCTGTC CCCGAATTGG CCCCGGTGGC AGGGGAGCCC CACAGAACTG
GAAAGTGGCT CACAGGTCAT TCGGAGGACT CAGACCACGG CCACCATCAT GGAGTGCAGG
GCCTGCCCTC CTGTGTCCCG CGTCGGCAGC ACGCCCCACA TCCAGGGTGG CGGCAGAAGG
TCTGAGCAGG CCGCACCGAA GTCAGAGCAG TATTTGACTC TGAGCAGTGC CGAAGACCTC
ACCGAGAGTG AGCTTGATGT GGCCTGGCCG CAGAGCAGAG CCAAGCCTTT GCACCAGAGA
CCTCGAGAGA GTGAGAAGCA TGACAAGAGG CCCCCTCCTC CTTATCCTGG TCCAGGGAAG
CAAGCTGTAG TGGCATCCCA GCAGCCAGGA GAGCCACTGT TGTGGAGGCC TCAGAGGCCA
GAAGAAGGTT CCAGAACAGC TTTGGAAGAG GGAAGCCAAA CAGCTGAGCG AGAGCAGCAA
GCCGCTGAGC AAAAACTGAG CAGCGCCTAC TCCACTCCCG CCAGCGACCA GGACAGTAAG
ACTTTGGCTG AACCCAACTG GCTCGATTGG CAGAGAGAGC GGTGGCAGAT CTGGGAGCTC
TTATCAACCG ACAACCCCGA TGCCCTCCCG GAAACGCTGG TATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019650610.1 CDS 404..3268 Translation
Target ORF information:
RefSeq Version XM_019795051.1 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca Rho GTPase activating protein 6 (ARHGAP6), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_019795051.1
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
2821ATGTCTGCCC AGAGCCTACT CCACAGTGTC TTCTCCTGCT CCTCGCCGGC CTCGGGTGGC
GCGGCCTCGG CCAAGGGCTT CTCCAAGAGG AAGCTGCGCC AGACCCGCAG CTTGGACCCG
GCCCTGATCG GCGGCTGTGG GGGCGAGGCG GGCATGGAGG GCAGCTCGCG GGGGGCCACC
GGGGGCCGCC TCTGCTCCCC ACTGTCTCCA GCCGAGGGTC TCAGCCCCCG CTCGGCGTCC
TCCCCTCGGG GTCCACACCC CCGGGCCAAC CGACTCCCGC CCCCTAGACC CCTCTGCTCA
TCCTTCTCCA CGCCCAGTAC CCCTCAGGAG AAGTCGCCCT CTGGCAGCTT CCACTTTGAC
TATGAGGTCC CCCTGGGTCG CGGAGGCCTC AAGAAGAGCA TGGCCTGGGA CCTGCCTTCA
GTCTTGGCTG GGCCTGGCAG TGGCCGCAGC GCCATCCTCT GCTCCACCGG GGGTGGCCCT
AATGGCATCT TCACTTCTCC CAGGAGGTGG CTTCAGCAGA GGAAGTTCCA GTCCCCCCCC
AACAGCCACA GCCACCCCTA CGTTGTGTGG AAGTCCGAGG GTGATTTCAC CTGGAACAGC
ATGTCGGGCC GCAGTGTGCG GCTGAGATCC GTCCCCATCC AGAGTCTGTC AGAGCTGGAG
CGAGCCCGGC TGCAGGAAGT GGCTTTTTAT CAGTTGCAGC AGGACTGTGA CCTGAGCTGT
CCCATCACCA TTCCCAAAGA TGGACAGAAG AGAAAGAAAT CTTTGCGAAA GAAACTGGAT
TCACTAGGAA AGGAGAAAAA CAAAGACAGA GAATTCATCC CGCAGGCATT TGGAATGCCT
TTATCCCAAG TCATTGCAAA TGACCGGGCC TATAAACTCA AGCAGGACTC GCAGAGGGAC
GAGCAGAAGG ATGCGTCTGA CTTTGTGGCT TCCCTCCTCC CGTTCGGAAA TAAAAGACAC
AACAAAGAAC TCTCAAGCAG TAACTCATCT CTCAGCTCCA CCTCTGAAAC ACCAAATGAG
TCAACATCCC CAAACACCCC AGAACCGGCT CCTCGGGCCA GGAGGAGGGG CGCGATGTCA
GTGGATTCTA TCACAGATCT TGATGACAAT CAGTCTCGAC TGCTAGAAGC TTTACAACTC
TCCTTGCCTG CCGAGGCTCA GAGTAAAAAA GAAAAAGCCA GAGATAAGAA ACTCAGTCTG
AATCCCATTT ACAGACAGGT CCCCAGGCTG GTGGACAGCT GCTGTCAGCA TCTAGAAAAA
CATGGCCTCC AGACGGTGGG GATATTCCGA GTTGGAAGCT CAAAAAAGAG AGTGAGACAA
TTACGTGAGG AATTTGACCG TGGGGTCGAT GTCTCTCTGG AGGAAGAGCA CAGCGTCCAT
GATGTGGCTG CCTTGCTGAA GGAGTTCCTG AGGGACATGC CGGACCCCCT CCTCACCAGG
GAGCTGTACA CAGCCTTCAT CAATACTCTC TTGTTGGAAC CAGAGGAACA GCTGGGTACC
TTGCAGCTCC TCGTCTACCT TCTACCTCCC TGTAACTGCG ACACCCTCCA CCGCCTCCTA
CAGTTCCTCT CCATGGTGGC CAAGCACGCC AACGACAACG TCAGCAAAGA TGGGCAAGAG
GTCACTGGGA ACAAAATGAC CTCTCTAAAC TTGGCCACCA TATTTGGACC CAACCTGCTG
CACAAGCAGA AATCATCAGA CAAAGAATTC TCTGTCCAGA GCTCAGCCCG GGCTGAGGAG
AGCACAGCCA TCATTGCTGT GGTGCAGAAA ATGATTGAAA ATTATGAAGC CCTGTTCATG
GTTCCTCCAG ATCTCCAGAA CGAAGTGCTG ATCAGCCTGT TGGAGACCGA TCCCGATGTG
GTGGACTATT TGCTCAGAAG AAAGGCCTCG CAGTCATCAA GCCCTGACAT GTTGAGATCG
GAAGTTTCCT TTTCTGTGGG AGGAAGGCAT TCGTCCACTG ACTCCAACAA GGCCTCCAGC
GGAGACCTCT CCCCATATGA CAACAACTCC CCAGTGCTGT CTGAGCGCTC CTTGCTGGCT
ATGCAAGAGG ATGCGGCCCC GGGGGGCTCG GAGAAGCTTT ACAAAGGACC GGAGCGGTAT
GTGCTGGTGA GCCACTTGCC ATCGTCGGAA TCAAGGGAGA GTTCTCCTGG ACCAAGGCTT
GGCAAAGGTT CCTATGGAGA CATTTTTGAA AGCAGCTCTC TACGACCGGG GCCATGCTCC
CTTTCTCAAG GGAACCTGTC CCCGAATTGG CCCCGGTGGC AGGGGAGCCC CACAGAACTG
GAAAGTGGCT CACAGGTCAT TCGGAGGACT CAGACCACGG CCACCATCAT GGAGTGCAGG
GCCTGCCCTC CTGTGTCCCG CGTCGGCAGC ACGCCCCACA TCCAGGGTGG CGGCAGAAGG
TCTGAGCAGG CCGCACCGAA GTCAGAGCAG TATTTGACTC TGAGCAGTGC CGAAGACCTC
ACCGAGAGTG AGCTTGATGT GGCCTGGCCG CAGAGCAGAG CCAAGCCTTT GCACCAGAGA
CCTCGAGAGA GTGAGAAGCA TGACAAGAGG CCCCCTCCTC CTTATCCTGG TCCAGGGAAG
CAAGCTGTAG TGGCATCCCA GCAGCCAGGA GAGCCACTGT TGTGGAGGCC TCAGAGGCCA
GAAGAAGGTT CCAGAACAGC TTTGGAAGAG GGAAGCCAAA CAGCTGAGCG AGAGCAGCAA
GCCGCTGAGC AAAAACTGAG CAGCGCCTAC TCCACTCCCG CCAGCGACCA GGACAGTAAG
ACTTTGGCTG AACCCAACTG GCTCGATTGG CAGAGAGAGC GGTGGCAGAT CTGGGAGCTC
TTATCAACCG ACAACCCCGA TGCCCTCCCG GAAACGCTGG TATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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