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RGA2 cDNA ORF clone, Candida dubliniensis CD36

Summary

Gene Symbol RGA2
Entrez Gene ID 8047451
Full Name GTPase-activating protein (GAP) for Rho-type GTPase Cdc42p, putative
Gene Type protein-coding
Organism Candida dubliniensis CD36

Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA Protein Name
XM_002419809.1 XP_002419854.1 GTPase-activating protein (GAP) for Rho-type GTPase Cdc42p, putative

Pathways from BioSystems


Gene Ontology


Bibliography

Related articles in PubMed

Comparative genomics of the fungal pathogens Candida dubliniensis and Candida albicans.
Jackson AP, Gamble JA, Yeomans T, Moran GP, Saunders D, Harris D, Aslett M, Barrell JF, Butler G, Citiulo F, Coleman DC, de Groot PW, Goodwin TJ, Quail MA, McQuillan J, Munro CA, Pain A, Poulter RT, Rajandream MA, Renauld H, Spiering MJ, Tivey A, Gow NA, Barrell B, Sullivan DJ, Berriman M
Genome research19(12)2231-44(2009 Dec)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following RGA2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RGA2 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OCr02997 XM_002419809.1
Latest version!		 Candida dubliniensis CD36 GTPase-activating protein (GAP) for Rho-type GTPase Cdc42p, putative (RGA2), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00

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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 OCr02997
Clone ID Related Accession (Same CDS sequence) XM_002419809.1
Accession Version XM_002419809.1 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 3534bp)
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 2017-08-27
Organism Candida dubliniensis CD36
Product GTPase-activating protein (GAP) for Rho-type GTPase Cdc42p, putative
Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NC_012863). COMPLETENESS: incomplete on both ends. 

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
ATGCCTGAAC TTGTACCACC AACAAATAAT CGACCCCATG TGCATGAGAC ACTCGACTTA 
GCCTCACAAC CTTCCTCGGG TAGTAATAGA CAACCCCGTG AATTATGCAA AAAATGTAAT 
CAGTTGATCG TTGAGGGCCA CGCGTATGAG TTGGGCGACG ATAGATGGCA CATCCATTGT 
TTCAACTGTT CAAAATGTAA CACGTCTTTG GGTTGCAATT CAAACTTTTT GGTTTTGGGT 
AATGGGAATT TGATTTGTTC AAACTGTTCT TACAACTGTA AGCAATGTGG CAGAAAGATT 
GATGATTTAG CAATATTGAC TGGAGATCAA GCCTACTGTT CCAATTGTTT CAAATGTCGT 
TCGTGTAAGA ACAAAATTGA AGATTTGAGA TACGCGCGTA CATCGAAAGG TTTATTTTGT 
ATGGATTGTC ACCAGAAACT AATGGCCAAA AAGAAGAAAT ACGATGCGAA AAAGAAACAT 
TTGGCGTTGC TTCAAGAGAA GAGATTACAG TTGGAACGAG AAAAGGATCA ACGTGAAATG 
CAAATATTGG AGGATCATAA ACGGTCAGTC AACTCATCCA GAAACAGTCT AATTCAGTCG 
TATATGAATA ACCAAAGCAA CCAATCAGGA GAAAGCTTAT TGTATCAACA GAACAACCGC 
TCGGTGACCT CAGTTACCTC GTCCAAAAAC AAGTCGTTGC CTTTACCCCC AACAGCCACA 
TCACCAACAA GACCAACTCC CTACACTGCA AATTCGTATC AATCCAAGGA TTCAATTTCG 
GGGAAAAACA AGACCGATTC ATCCCTTGGT TCCTTGTCAA CATCACAGAC CTTGTCAGAA 
CACACAAACA AAGGAAATTC GACTTTACAC AACAGTACCG GGCTTCATAA TCCGCCAATA 
TTTCAGTCAG ATAACGATTT TTCCATTGAA GAAGTTCAGA ACAGCTCTGA CTCAGATACG 
AATGGTGATG AAAAGAAATC AAATGGTACT TCATTGCGAA ATAAAAATTC CAATAGAAGC 
TCGAAAGTTC TGCCTTTTGT AAACCAATAC TCAACGCCTC CGTTGTCTTC TGATCAATTG 
AGTACCGACG AAATATCAGC TGATACCGGT GAGAAAACTG TTTACTTGGA TATTATAGAT 
ACTCCTCCAG AGTCCAAGGC TGATCCACTT TCTGGAAATC AATTAAAACC CGCCCTTGAC 
GTGTCCCCGG GTGGAAACCC TGAACAGAAA TCTAAGAATT TCCTTATTTT ATCACCTAAC 
CAATTCCACG ATAATGAATT CCATAATACT AGATCCCCCA TGATCGATTC TCCAGGAACA 
ATTATTAGTC AAAATTCGAA CCAAAACACG AAAGCAGTTA ACCTATCAGT AGAAGATAAA 
CCTCGCTCCG GGTGCCCTTC TCCATTTGCC AAAGTTAATA GACAGGCACG AGTTGTTGAA 
ACGAATGATG AAATACTGAC AGATGGAGTT GACGATGATT TAGCAATTGG AACACCAAGG 
CAAGAAAAAC CTTCGAGGGC AGGTACCTCG AAATCGGTGT CTTCCCCACC ACCAAGGGTG 
CCATTACCTA GCACTCCTTC TAGAGGCGAC GATGCCTCCA AAAAATTCAG TTTTGTTGAA 
ACACCAAAAG GTTTAGGATT AGAGGGGGTA GATTATGACA ATCATGAGGA TCAGAGAAGT 
TACATTAAAC TGCAACAAGA TCAACGACAA CATGATATAA GTGAGAAAAC TAGCCCGTCC 
TCAATAATGT CTACACCTAA AAGGGTTGTT GGCAATTTTT CACCTGCAGT AACCAACTTG 
GAACCAAAGA ACTCAGATTG GTCAAATGAC CAACAACACA AACACCTGCA AAAGAATCAG 
AATGTCTCAC GTACTGCTTC AATTATCAAG AACTTGAAAC ACAAGCGTTC CACTTCAGGA 
AATCAAAATA AGTTAGCTGC ACTTTTCACA ACAAGCAATA GAGAGGATCA TAGAAACGGT 
CACACAAGAC AAACATCTGA TGGATCACTT TTTAGTAGTA TCGCCAATGC TTACATTTCC 
CCACCAATAA CTAATAGTGG GTTGGGTGGA CGTAGTCATA TAAGACTGAC ATCAGACTCA 
ACAGTATTGT TATCAGACGA AGATCATTAC AACAATGTTG CTATGAAGAG TGAGATTGAG 
CAATTGAGCA GTAGCAAAGC TTTGTTAGAC CAGGATGTTA AGAAATTGAG AGATGAAAAA 
CATAAGCTTA ATGAACAGTT GAAGATGATA CAATCTAAAA TTTCGTCGGA ATCGATTCGA 
TACGACAATT TAGTGGCTGA AATTGCTGAA TTACAGGCAC AAAAGACAAA GATAACGAAC 
GAGAATAAAG AGTTGATTGA ACAACAAAAG AATAGACAAG CTTCTGGTGC CACTGGAAAA 
CTATCAAAGT CTTTTAGCAA CGATTCTGAT CCTGATGCCT CTACGTTGGG CAAGAGTGTC 
AATACACACC TTTCACCTTA CAAGAACTCA TCAGATAGCA CTCTGGTTGT ATCGAGGGAT 
AATTATGAAT ACCTGGATCA TTTGTCTCCT GAGAGACACC AAGCGCAATA TCAACAACAA 
CAACAACAAT ACCAACAGCA ATATCATCAA CATCAGCAGC AACAATCCAC TGAGGACGAA 
CAAACACACA AGGCAACACG GTTGAAATTT TGGAGAAGAC CAAAAGTAGG AACAACACAG 
GCTATCCCAT CTAATGAGTA TAATAACAAT AGCAACGCAC CCAACAATGG TGGCGGAAGA 
ATCCCGAATA GTTTCTCAAC TCAGGCATTG CGTATACCTG CTCAAAATTC TGGTAATTCA 
TTCAATAACA GCGGGGCAAA TAACAATAAC CAGCAAAATA AATTCTCCAA GTCTAAATCA 
AGCAATATAT TAGACTCATT GCTTTCTGGA GACTCAAACC AGGTACCACT TTTTGACAGC 
ACTTTACAGC AACGTGCAGA CTATGAAAAG AATCAAGTTC CAATCATTGT TACTAGATGC 
ATAGCTGAAG TTGAGAAACG AGGATTAGAT TTTGAAGGTA TATATCGTAT TTCCGGGGGA 
AACTCTGCAA TTGTGTCTAT TGAAAATGCA TTTGCCAGTT TATCCAATGA TCCCGACGAG 
AAACAATTAA GCCGAGTGGA AGAAACGTTG GATGTAGACA TCCATGCTGT TACTTCAGCA 
TTGAAGAGAT ACTTACGGAA GTTACCTGAT CCAGTTATTC CATTTGTCTT GTACGAAGAC 
TTTATTAATG TATCAACTAA AGCTTCCCAT TCCAAAGAGG TGCGTATAGC AGAATTACAA 
AAGATTGTTG GCAAATTGCC CCCAGCAAAT AGAGAGACAT TGAGATTAAT TGTGAACCAT 
TTACATTTGG TGAATTCGTT GCAAAATGTA AATAAGATGG GTTATAAGAA TTTATCAGTT 
GTATTTGCTC CAACTTTAGC GAAGGACAAA TCTGGCGACA ATGAAATGGC CGATATGGGA 
TTTAGAAACG ATTCAACGGA GTTACTATTG ACAGAATCAC ATAGAATCTT TTAG

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

RefSeq XP_002419854.1
CDS1..3534
Translation

Target ORF information:

RefSeq Version XM_002419809.1
Organism Candida dubliniensis CD36
Definition Candida dubliniensis CD36 GTPase-activating protein (GAP) for Rho-type GTPase Cdc42p, putative (RGA2), partial mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_002419809.1

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
ATGCCTGAAC TTGTACCACC AACAAATAAT CGACCCCATG TGCATGAGAC ACTCGACTTA 
GCCTCACAAC CTTCCTCGGG TAGTAATAGA CAACCCCGTG AATTATGCAA AAAATGTAAT 
CAGTTGATCG TTGAGGGCCA CGCGTATGAG TTGGGCGACG ATAGATGGCA CATCCATTGT 
TTCAACTGTT CAAAATGTAA CACGTCTTTG GGTTGCAATT CAAACTTTTT GGTTTTGGGT 
AATGGGAATT TGATTTGTTC AAACTGTTCT TACAACTGTA AGCAATGTGG CAGAAAGATT 
GATGATTTAG CAATATTGAC TGGAGATCAA GCCTACTGTT CCAATTGTTT CAAATGTCGT 
TCGTGTAAGA ACAAAATTGA AGATTTGAGA TACGCGCGTA CATCGAAAGG TTTATTTTGT 
ATGGATTGTC ACCAGAAACT AATGGCCAAA AAGAAGAAAT ACGATGCGAA AAAGAAACAT 
TTGGCGTTGC TTCAAGAGAA GAGATTACAG TTGGAACGAG AAAAGGATCA ACGTGAAATG 
CAAATATTGG AGGATCATAA ACGGTCAGTC AACTCATCCA GAAACAGTCT AATTCAGTCG 
TATATGAATA ACCAAAGCAA CCAATCAGGA GAAAGCTTAT TGTATCAACA GAACAACCGC 
TCGGTGACCT CAGTTACCTC GTCCAAAAAC AAGTCGTTGC CTTTACCCCC AACAGCCACA 
TCACCAACAA GACCAACTCC CTACACTGCA AATTCGTATC AATCCAAGGA TTCAATTTCG 
GGGAAAAACA AGACCGATTC ATCCCTTGGT TCCTTGTCAA CATCACAGAC CTTGTCAGAA 
CACACAAACA AAGGAAATTC GACTTTACAC AACAGTACCG GGCTTCATAA TCCGCCAATA 
TTTCAGTCAG ATAACGATTT TTCCATTGAA GAAGTTCAGA ACAGCTCTGA CTCAGATACG 
AATGGTGATG AAAAGAAATC AAATGGTACT TCATTGCGAA ATAAAAATTC CAATAGAAGC 
TCGAAAGTTC TGCCTTTTGT AAACCAATAC TCAACGCCTC CGTTGTCTTC TGATCAATTG 
AGTACCGACG AAATATCAGC TGATACCGGT GAGAAAACTG TTTACTTGGA TATTATAGAT 
ACTCCTCCAG AGTCCAAGGC TGATCCACTT TCTGGAAATC AATTAAAACC CGCCCTTGAC 
GTGTCCCCGG GTGGAAACCC TGAACAGAAA TCTAAGAATT TCCTTATTTT ATCACCTAAC 
CAATTCCACG ATAATGAATT CCATAATACT AGATCCCCCA TGATCGATTC TCCAGGAACA 
ATTATTAGTC AAAATTCGAA CCAAAACACG AAAGCAGTTA ACCTATCAGT AGAAGATAAA 
CCTCGCTCCG GGTGCCCTTC TCCATTTGCC AAAGTTAATA GACAGGCACG AGTTGTTGAA 
ACGAATGATG AAATACTGAC AGATGGAGTT GACGATGATT TAGCAATTGG AACACCAAGG 
CAAGAAAAAC CTTCGAGGGC AGGTACCTCG AAATCGGTGT CTTCCCCACC ACCAAGGGTG 
CCATTACCTA GCACTCCTTC TAGAGGCGAC GATGCCTCCA AAAAATTCAG TTTTGTTGAA 
ACACCAAAAG GTTTAGGATT AGAGGGGGTA GATTATGACA ATCATGAGGA TCAGAGAAGT 
TACATTAAAC TGCAACAAGA TCAACGACAA CATGATATAA GTGAGAAAAC TAGCCCGTCC 
TCAATAATGT CTACACCTAA AAGGGTTGTT GGCAATTTTT CACCTGCAGT AACCAACTTG 
GAACCAAAGA ACTCAGATTG GTCAAATGAC CAACAACACA AACACCTGCA AAAGAATCAG 
AATGTCTCAC GTACTGCTTC AATTATCAAG AACTTGAAAC ACAAGCGTTC CACTTCAGGA 
AATCAAAATA AGTTAGCTGC ACTTTTCACA ACAAGCAATA GAGAGGATCA TAGAAACGGT 
CACACAAGAC AAACATCTGA TGGATCACTT TTTAGTAGTA TCGCCAATGC TTACATTTCC 
CCACCAATAA CTAATAGTGG GTTGGGTGGA CGTAGTCATA TAAGACTGAC ATCAGACTCA 
ACAGTATTGT TATCAGACGA AGATCATTAC AACAATGTTG CTATGAAGAG TGAGATTGAG 
CAATTGAGCA GTAGCAAAGC TTTGTTAGAC CAGGATGTTA AGAAATTGAG AGATGAAAAA 
CATAAGCTTA ATGAACAGTT GAAGATGATA CAATCTAAAA TTTCGTCGGA ATCGATTCGA 
TACGACAATT TAGTGGCTGA AATTGCTGAA TTACAGGCAC AAAAGACAAA GATAACGAAC 
GAGAATAAAG AGTTGATTGA ACAACAAAAG AATAGACAAG CTTCTGGTGC CACTGGAAAA 
CTATCAAAGT CTTTTAGCAA CGATTCTGAT CCTGATGCCT CTACGTTGGG CAAGAGTGTC 
AATACACACC TTTCACCTTA CAAGAACTCA TCAGATAGCA CTCTGGTTGT ATCGAGGGAT 
AATTATGAAT ACCTGGATCA TTTGTCTCCT GAGAGACACC AAGCGCAATA TCAACAACAA 
CAACAACAAT ACCAACAGCA ATATCATCAA CATCAGCAGC AACAATCCAC TGAGGACGAA 
CAAACACACA AGGCAACACG GTTGAAATTT TGGAGAAGAC CAAAAGTAGG AACAACACAG 
GCTATCCCAT CTAATGAGTA TAATAACAAT AGCAACGCAC CCAACAATGG TGGCGGAAGA 
ATCCCGAATA GTTTCTCAAC TCAGGCATTG CGTATACCTG CTCAAAATTC TGGTAATTCA 
TTCAATAACA GCGGGGCAAA TAACAATAAC CAGCAAAATA AATTCTCCAA GTCTAAATCA 
AGCAATATAT TAGACTCATT GCTTTCTGGA GACTCAAACC AGGTACCACT TTTTGACAGC 
ACTTTACAGC AACGTGCAGA CTATGAAAAG AATCAAGTTC CAATCATTGT TACTAGATGC 
ATAGCTGAAG TTGAGAAACG AGGATTAGAT TTTGAAGGTA TATATCGTAT TTCCGGGGGA 
AACTCTGCAA TTGTGTCTAT TGAAAATGCA TTTGCCAGTT TATCCAATGA TCCCGACGAG 
AAACAATTAA GCCGAGTGGA AGAAACGTTG GATGTAGACA TCCATGCTGT TACTTCAGCA 
TTGAAGAGAT ACTTACGGAA GTTACCTGAT CCAGTTATTC CATTTGTCTT GTACGAAGAC 
TTTATTAATG TATCAACTAA AGCTTCCCAT TCCAAAGAGG TGCGTATAGC AGAATTACAA 
AAGATTGTTG GCAAATTGCC CCCAGCAAAT AGAGAGACAT TGAGATTAAT TGTGAACCAT 
TTACATTTGG TGAATTCGTT GCAAAATGTA AATAAGATGG GTTATAAGAA TTTATCAGTT 
GTATTTGCTC CAACTTTAGC GAAGGACAAA TCTGGCGACA ATGAAATGGC CGATATGGGA 
TTTAGAAACG ATTCAACGGA GTTACTATTG ACAGAATCAC ATAGAATCTT TTAG

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

PubMed

book

Comparative genomics of the fungal pathogens Candida dubliniensis and Candida albicans.
Genome research19(12)2231-44(2009 Dec)
Jackson AP,Gamble JA,Yeomans T,Moran GP,Saunders D,Harris D,Aslett M,Barrell JF,Butler G,Citiulo F,Coleman DC,de Groot PW,Goodwin TJ,Quail MA,McQuillan J,Munro CA,Pain A,Poulter RT,Rajandream MA,Renauld H,Spiering MJ,Tivey A,Gow NA,Barrell B,Sullivan DJ,Berriman M