CD36_64950 cDNA ORF clone, Candida dubliniensis CD36

Gene
Clones
gRNAs

Summary

Gene Symbol	CD36_64950
Entrez Gene ID	8048643
Full Name	metalloprotease, putative
Gene Type	protein-coding
Organism	Candida dubliniensis CD36

mRNA and Protein(s)

mRNA	Protein	Name
XM_002421145.1	XP_002421190.1	metalloprotease, 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 CD36_64950 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CD36_64950 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
OCr04101	XM_002421145.1 Latest version!	Candida dubliniensis CD36 metalloprotease, putative (CD36_64950), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

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

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

Reference Sequences (Refseq)

CD36_64950 ( XM_002421145.1 ) cDNA ORF clone, Candida dubliniensis CD36 -> XP_002421190.1 Candida dubliniensis CD36 metalloprotease, putative (CD36_64950), partial mRNA.

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CloneID	OCr04101
Clone ID Related Accession (Same CDS sequence)	XM_002421145.1
Accession Version	XM_002421145.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2823bp) 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	1503763200000
Organism	Candida dubliniensis CD36
Product	metalloprotease, 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_012865). COMPLETENESS: incomplete on both ends.

ATGTCAGACA CACTGATACC ATTGAGTATC TCTAATGAAT ACGTGCCAAT TGAGTATCAT 
TATAAATTGG ACATCAATCA TCAGAAACCC AACTTTAATG GTGTTGCGAT AATTACAATT 
GGAAAAAACG ACCAACAAAC AAGTCATGTG GACAAACAAT CTGAAGAAAA GCCTTTTAGT 
ATTACCTTGC ATGCCAATAA ATTGGTGCTT ACAAGTGCAA TAATTGGTGA TAAGAAATTA 
TCAATCAAAT ATGACAAATT GCAACAAAGA GTGACATTTC TGAGTCCACA AACATACTCC 
CAATTAACCA CTGATAATTG CTTGGTAATG GAAGTCAAGT ACATGGGACA AATTAAAACC 
ATCAATACTT ATAAAGATGA AACCCAAGGG TTGTTTAAAA CCAATTTTTT AGATAACGAT 
AGTGGAAAAT CAGACAACTA CATTCTTACC ACACATTTTC AGCCAATGGG TGCCAAACAA 
GTTTTCCCTA TTATTGATGA ACTAACCCAT AAGCCAATGA TAAAGTTAGA TTTGAAAACT 
TTGAAAAAAT TTCAAGTATT CTGTAATGGT GATGAAAATG ATGTTGTATT CAACGATGAT 
GATGAATGGA AAACAAGTAA GTTTGTTTAC TCAAAACCCA TTCATCCCGC TATAATGGGA 
TTTCTGGTTG GTGATTTTAC TTGGCAACTG AGTAAAACAG TAAAGACGAA TAATATTGAG 
GATTCAGTTA GAGTATATGC GCCATCGGGA GAGATATCCA AGACTAATGT GGCTTTAAGA 
ATCATTGAGA AATATTTACC CAAATTGGAA GCAGTGTTTG GCAAATATCC ATTAAATCAT 
ATATATTTCG TGGCCATTCC ATTTTTAAAA GATGGGGTGA TGGAGAATTG GTCTATGATT 
AATGTAATTG CTCCCAATTT GTTGATTGAC GAAAACTATT CCAACAACCA AGATGAGACC 
CAATTAACTG AATTGATTGT TCATGAATTG GTCCACCAAT GGATAGGAAA CTGGGTTTCG 
TTTGATAGTT GGAGTTGTTT GTGGTTTAAT GAAGCGTTTG CCACATGGAC GGCACGCAAG 
ATTATTGGTG CAAATACTAC CCATAGCAAC GATGAAATGT TATCTAGAGA TTGCTTTTAT 
GATGATGGTG ATTTTAAAAT AGGCAGCATT TTTCAATATA TGGAACGCAA CCAGAGCCCT 
GGTTTAAATG CCACTACCGA ATCAATATTC AGTACTAATA TTTACGAAAA AGGTATAATT 
CTTTTGAATA TGATTGACGG GATTTTTGAA GCAGAAAGTA AAGATTTCCT TAGAGAATTC 
GCTACAAAAA TAATTGAAGA ATACCAGTCA AAGTCAATCA AAATCTTTGA CATTTGGCAA 
AAATTGAATG ACGACATTTC GATTGACTTA CCAAGTTTTG TTTACTCTTG GACAAGAAGT 
AAAGGGTATC CATTATTGAG AGTCACACAT CAAGAAACTG GTAATAATCC ATCGAAAAAG 
AAGATTGCTA TTGAGCAACA TACTTATTTC CATAATATGA CGACCAAAGA AGCTGCAATC 
GAGGATACTC CCTATCATAT TCCTTTATTT ATCAAAGCCA AAACTACTGA TGGTAACGAA 
AACAACAAAA AAACTAAATT GATCAACTTA ATGATGACGG ATCGATCTAT TGAATTAGAT 
ATTGACCACC AATTGATAAA TATAAACACA GGCTATAAAG GTTATTATCG GGTATTGTAT 
GATCACTTTG ACGTTGATAA TTTGTCGTTA ATGGATCCAA AAGATATTAT AATGATAATT 
TCTGATTTGG GAACTGTCAT GGGGACTCCA AATTCAAATA GCAACGATTT AATCAATTTT 
ATTTCTTTGA TGGGGGACTT GCTAAAATCA AAAGAGTTTA ATTGGGAGAT ATGGGAATGT 
GCCTTGAGTT ATTTGGAACC AATTATCGAT ATCTTGCGTC ATTTCAGCGA ATTTGATAAA 
TTTAACAACC AATGGTTAAG CAAATTTACT GGTGATTTAT TTAATGCAAT CAAATGGGAT 
AATAATTCCT TAGATAAAAT CTCGAGAAAT CAGTACAATA GCTTAGAGTG GAAAGTTAGA 
TCATCTATTT TGCAATTGAA TATCAATAAC ACGAGCAGTA CTGGTGAGGC AGCATACAAA 
GCGGCCCATA AATATTATCA AAATTTTATG AACTCAGGTA TTAACAAGAA ATTTACACCA 
AAAGAGATAC TACCTGCTGT ATTCAATGTT ACCATGAGCA AAGCCTCGAT GAAGGAATAT 
AAAAAAGTTT TAGAGTTAGT TAAAAATGCC AATGTATCTC TTTTGAAACA AACAAATGCG 
AGCCAACAAG ATTTGCAGAC GTTAAGTTTG ACAAGTTTAT CGTTTGTGTA TGGTTCTGGT 
GCAGATGTTG AGTTGGTTAA TAAAACTTTG AACTTTGTCA ACAATAATAT AGATTCCAAA 
TTGATCGAAT TAGGATTGAT TGGGTTCACA TTCACAAATA ACCAACGAGT GATTGACCTT 
GTTTTCCATT GGTTCAAGTT AAATTATGAT AACTGGATTA TGAGGTCCTT ACGTAAGGGA 
AGTGACTGGT CAAAACAAAT TGGAATCACT ACACAAAATA TCATGAAGAT GATTATTATG 
AAAATGATGT CTAACAATGA AGAAAATAAA TTAAGATTGA ATGAATTTAT CCAATTAAAA 
TTGAAAACTT TACCAAACCA TGGGTTAAAA GAATTGGTTG ATGATTGGCA TTTGGAAAAT 
GAAGAAAGTG TTAGAATTGG CTCTTTCTAT AATGATTTAT GTGATCACAT TTGTTTGAAA 
TAA

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

RefSeq	XP_002421190.1
CDS	1..2823
Translation	MSDTLIPLSISNEYVPIEYHYKLDINHQKPNFNGVAIITIGKNDQQTSHVDKQSEEKPFSITLHANKLVLTSAIIGDKKLSIKYDKLQQRVTFLSPQTYSQLTTDNCLVMEVKYMGQIKTINTYKDETQGLFKTNFLDNDSGKSDNYILTTHFQPMGAKQVFPIIDELTHKPMIKLDLKTLKKFQVFCNGDENDVVFNDDDEWKTSKFVYSKPIHPAIMGFLVGDFTWQLSKTVKTNNIEDSVRVYAPSGEISKTNVALRIIEKYLPKLEAVFGKYPLNHIYFVAIPFLKDGVMENWSMINVIAPNLLIDENYSNNQDETQLTELIVHELVHQWIGNWVSFDSWSCLWFNEAFATWTARKIIGANTTHSNDEMLSRDCFYDDGDFKIGSIFQYMERNQSPGLNATTESIFSTNIYEKGIILLNMIDGIFEAESKDFLREFATKIIEEYQSKSIKIFDIWQKLNDDISIDLPSFVYSWTRSKGYPLLRVTHQETGNNPSKKKIAIEQHTYFHNMTTKEAAIEDTPYHIPLFIKAKTTDGNENNKKTKLINLMMTDRSIELDIDHQLININTGYKGYYRVLYDHFDVDNLSLMDPKDIIMIISDLGTVMGTPNSNSNDLINFISLMGDLLKSKEFNWEIWECALSYLEPIIDILRHFSEFDKFNNQWLSKFTGDLFNAIKWDNNSLDKISRNQYNSLEWKVRSSILQLNINNTSSTGEAAYKAAHKYYQNFMNSGINKKFTPKEILPAVFNVTMSKASMKEYKKVLELVKNANVSLLKQTNASQQDLQTLSLTSLSFVYGSGADVELVNKTLNFVNNNIDSKLIELGLIGFTFTNNQRVIDLVFHWFKLNYDNWIMRSLRKGSDWSKQIGITTQNIMKMIIMKMMSNNEENKLRLNEFIQLKLKTLPNHGLKELVDDWHLENEESVRIGSFYNDLCDHICLK

Target ORF information:

RefSeq Version	XM_002421145.1
Organism	Candida dubliniensis CD36
Definition	Candida dubliniensis CD36 metalloprotease, putative (CD36_64950), partial mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_002421145.1

ORF Insert Sequence:

ATGTCAGACA CACTGATACC ATTGAGTATC TCTAATGAAT ACGTGCCAAT TGAGTATCAT 
TATAAATTGG ACATCAATCA TCAGAAACCC AACTTTAATG GTGTTGCGAT AATTACAATT 
GGAAAAAACG ACCAACAAAC AAGTCATGTG GACAAACAAT CTGAAGAAAA GCCTTTTAGT 
ATTACCTTGC ATGCCAATAA ATTGGTGCTT ACAAGTGCAA TAATTGGTGA TAAGAAATTA 
TCAATCAAAT ATGACAAATT GCAACAAAGA GTGACATTTC TGAGTCCACA AACATACTCC 
CAATTAACCA CTGATAATTG CTTGGTAATG GAAGTCAAGT ACATGGGACA AATTAAAACC 
ATCAATACTT ATAAAGATGA AACCCAAGGG TTGTTTAAAA CCAATTTTTT AGATAACGAT 
AGTGGAAAAT CAGACAACTA CATTCTTACC ACACATTTTC AGCCAATGGG TGCCAAACAA 
GTTTTCCCTA TTATTGATGA ACTAACCCAT AAGCCAATGA TAAAGTTAGA TTTGAAAACT 
TTGAAAAAAT TTCAAGTATT CTGTAATGGT GATGAAAATG ATGTTGTATT CAACGATGAT 
GATGAATGGA AAACAAGTAA GTTTGTTTAC TCAAAACCCA TTCATCCCGC TATAATGGGA 
TTTCTGGTTG GTGATTTTAC TTGGCAACTG AGTAAAACAG TAAAGACGAA TAATATTGAG 
GATTCAGTTA GAGTATATGC GCCATCGGGA GAGATATCCA AGACTAATGT GGCTTTAAGA 
ATCATTGAGA AATATTTACC CAAATTGGAA GCAGTGTTTG GCAAATATCC ATTAAATCAT 
ATATATTTCG TGGCCATTCC ATTTTTAAAA GATGGGGTGA TGGAGAATTG GTCTATGATT 
AATGTAATTG CTCCCAATTT GTTGATTGAC GAAAACTATT CCAACAACCA AGATGAGACC 
CAATTAACTG AATTGATTGT TCATGAATTG GTCCACCAAT GGATAGGAAA CTGGGTTTCG 
TTTGATAGTT GGAGTTGTTT GTGGTTTAAT GAAGCGTTTG CCACATGGAC GGCACGCAAG 
ATTATTGGTG CAAATACTAC CCATAGCAAC GATGAAATGT TATCTAGAGA TTGCTTTTAT 
GATGATGGTG ATTTTAAAAT AGGCAGCATT TTTCAATATA TGGAACGCAA CCAGAGCCCT 
GGTTTAAATG CCACTACCGA ATCAATATTC AGTACTAATA TTTACGAAAA AGGTATAATT 
CTTTTGAATA TGATTGACGG GATTTTTGAA GCAGAAAGTA AAGATTTCCT TAGAGAATTC 
GCTACAAAAA TAATTGAAGA ATACCAGTCA AAGTCAATCA AAATCTTTGA CATTTGGCAA 
AAATTGAATG ACGACATTTC GATTGACTTA CCAAGTTTTG TTTACTCTTG GACAAGAAGT 
AAAGGGTATC CATTATTGAG AGTCACACAT CAAGAAACTG GTAATAATCC ATCGAAAAAG 
AAGATTGCTA TTGAGCAACA TACTTATTTC CATAATATGA CGACCAAAGA AGCTGCAATC 
GAGGATACTC CCTATCATAT TCCTTTATTT ATCAAAGCCA AAACTACTGA TGGTAACGAA 
AACAACAAAA AAACTAAATT GATCAACTTA ATGATGACGG ATCGATCTAT TGAATTAGAT 
ATTGACCACC AATTGATAAA TATAAACACA GGCTATAAAG GTTATTATCG GGTATTGTAT 
GATCACTTTG ACGTTGATAA TTTGTCGTTA ATGGATCCAA AAGATATTAT AATGATAATT 
TCTGATTTGG GAACTGTCAT GGGGACTCCA AATTCAAATA GCAACGATTT AATCAATTTT 
ATTTCTTTGA TGGGGGACTT GCTAAAATCA AAAGAGTTTA ATTGGGAGAT ATGGGAATGT 
GCCTTGAGTT ATTTGGAACC AATTATCGAT ATCTTGCGTC ATTTCAGCGA ATTTGATAAA 
TTTAACAACC AATGGTTAAG CAAATTTACT GGTGATTTAT TTAATGCAAT CAAATGGGAT 
AATAATTCCT TAGATAAAAT CTCGAGAAAT CAGTACAATA GCTTAGAGTG GAAAGTTAGA 
TCATCTATTT TGCAATTGAA TATCAATAAC ACGAGCAGTA CTGGTGAGGC AGCATACAAA 
GCGGCCCATA AATATTATCA AAATTTTATG AACTCAGGTA TTAACAAGAA ATTTACACCA 
AAAGAGATAC TACCTGCTGT ATTCAATGTT ACCATGAGCA AAGCCTCGAT GAAGGAATAT 
AAAAAAGTTT TAGAGTTAGT TAAAAATGCC AATGTATCTC TTTTGAAACA AACAAATGCG 
AGCCAACAAG ATTTGCAGAC GTTAAGTTTG ACAAGTTTAT CGTTTGTGTA TGGTTCTGGT 
GCAGATGTTG AGTTGGTTAA TAAAACTTTG AACTTTGTCA ACAATAATAT AGATTCCAAA 
TTGATCGAAT TAGGATTGAT TGGGTTCACA TTCACAAATA ACCAACGAGT GATTGACCTT 
GTTTTCCATT GGTTCAAGTT AAATTATGAT AACTGGATTA TGAGGTCCTT ACGTAAGGGA 
AGTGACTGGT CAAAACAAAT TGGAATCACT ACACAAAATA TCATGAAGAT GATTATTATG 
AAAATGATGT CTAACAATGA AGAAAATAAA TTAAGATTGA ATGAATTTAT CCAATTAAAA 
TTGAAAACTT TACCAAACCA TGGGTTAAAA GAATTGGTTG ATGATTGGCA TTTGGAAAAT 
GAAGAAAGTG TTAGAATTGG CTCTTTCTAT AATGATTTAT GTGATCACAT TTGTTTGAAA 
TAA

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

PubMed

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

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CD36_64950 cDNA ORF clone, Candida dubliniensis CD36

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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