CD36_46030 cDNA ORF clone, Candida dubliniensis CD36

Gene
Clones
gRNAs

Summary

Gene Symbol	CD36_46030
Entrez Gene ID	8047603
Full Name	hypothetical protein
Gene Type	protein-coding
Organism	Candida dubliniensis CD36

mRNA and Protein(s)

mRNA	Protein	Name
XM_002420201.1	XP_002420246.1	conserved hypothetical protein

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_46030 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CD36_46030 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
OCr03139	XM_002420201.1 Latest version!	Candida dubliniensis CD36 conserved hypothetical protein (CD36_46030), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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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_46030 ( XM_002420201.1 ) cDNA ORF clone, Candida dubliniensis CD36 -> XP_002420246.1 Candida dubliniensis CD36 conserved hypothetical protein (CD36_46030), partial mRNA.

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CloneID	OCr03139
Clone ID Related Accession (Same CDS sequence)	XM_002420201.1
Accession Version	XM_002420201.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3840bp) 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	conserved hypothetical protein
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.

ATGAAATTGT TCCAGAATAT TATTGTTTCC CTCGCTTTAT TCACTCAATT AATCTTTGCT 
ATCGAAATCG CTGAAAATAA AGTTGATCGT GGTACCATTA CTTTAAATTT AGGTGATATC 
ATTATTTATA CTGGTGCTAC TTGGTCAATC ATCGACAATG CTTATACCAA TTTTGTTGGC 
AAATTAGATG TCAGAGCTGA TGCTGGGTTA TATATCTCCC TGACTTCTCA TCTTTTGGCT 
CTTCAAGTTA GTTTGACAAC TATACTCCAT TCAATTACCA ATAACGGTAT TATCTCCTTT 
GATTCACGCG TTTCAAGAAC ATCATCTTCG TATGATTTGA GAGGCGTTTC CTTCACAAAC 
AATGGAGAAA TGTATTTTGG GTCTTCTGGT GAATCTTCAA GTTCCACTTC ACTTACTTCT 
GCTCTGTGGA CTAATACTGG GTTATTACTG TTTTTCCAAA ATCAAAGAAC TTCTGGTACA 
GTAAATCTTG GGGTTTCAAT GGGATCTATT ACCAATGATG GACAAATCTG TTTGAATAAT 
CAAGTTTATG AACAAGCAAC CCAAATTAAG GGTTCGGGTT GTTTCACTGC TAAAGGTGAC 
TCCACTATTT ATATCGCCAA TGTTGTATTA GCAGTTTCCT CCAAACAAAA TTTTTATTTA 
ACTGATAAAG GCTCTTCCAT GATTGTCCAA GCAGTATCAA CCACACAAAC ATTTAATGTT 
TATGGTTTTG GTGATGGTAA CAAAATTGGA TTAACTCTTC CCTTAGTTGG AACTCTTTTC 
ACTTCAGCTT ATACTTATGA TACTGCTTCT GGTATTTTGA CTTTAAGAAA TACTTTGCTT 
GAACAAAAAT TTAACATTGG TACAGGATAC GATCCATCTA AATTTCAAGT TGTTACAGAT 
TCTGGATCAG GTACTCCATC AACTGTCTTG GGTTCAGTTG CTTATTATGG CCGTGCCCCA 
ACGAGAACTT TGCCTAAATC CTGTCAAATT CCTTGTAAAC CAATTCCAGA AGCACCAGGA 
ACTAACCCAA CAGAATACAC TACCACAATT ACAAAAACTA ACCCTGCTGG AAACACAGCA 
ACTGAAACTG GTGTTGTTCA TATTCTGACA GATAAAACTG GATCTTGGTT CACCACGACA 
TCAATTTTCC CAACATTGAC AACTGCTATA GCTACATCCA CCCCAACTAC TTTATCTACT 
GGATTATCTT TCAGTGTCAA TATTCCAGTT GAAACTTCGT CAATTGAAGA CTCATCAAGT 
ACTTTAGCCG GTTCTGAATC TTCTGTTACT CAAACCACAT CCATAGAAAC CCCAGTTTCA 
AGTTACTCCT CTGCTGATCA AGAGTCAGTA TCCATTGATG AATCTTCTGT TAATGGCAGT 
ACTATGGTTT CCAGTGAATC TGCTCTTGAA TCTGCTAGTG ACATTATCAT TGCCGAGGCA 
TCTAGTGTTG AATCATATCC TTTGAGTGAA CAATCCGTTG CTCATGAATC TACTACTACT 
ACTATCCCAA TGTCTGCTAC TACTGAAACA TATGTTACTG AATCATCTGA AGTTGTGGTT 
GATTCATCAT TTGTTAGTGA AATCCATATT TCCAAAGCAT CTTCTTTTTC AATTGTGACA 
CCAAGCGAGA CCATAATTGT TGATGAATCA TTTACCAGTA TTAGTGCTAT CTCAACCACA 
GCATCACCTT CTGAAATATC ATCTGATTTC GTTGTATCAT CTGCATCTTA CTCAATTTTC 
GCCAGTGAAA CACATATCTC CAATGATTCT GAATCCGTTG AACCATCATT TGTTACCCCA 
AGTGAATCAA TAATTGTCAT TGTTTCTGAA CCACCTATTA GTACTGATTT AATCCCATCT 
ACTACCTCAC AACCTGAAAT GTCTTCTGTG ATTACTGAAT CAAACATCAT TTCATCAATT 
GTTACTGCTC TGGAAATGGA ATTATCATCT ACTTTGGATT TATCCCATTC TGAAACATCT 
TCAATCAAAG AGTCAGAAAT TATTAGTGTA ACTTCATCAG TACCAACTGT GGACTCCACT 
ATTGCTGACA ATAAATTAAC ATCCACTTGG AAATCATCCA GTTTAATCAA CTCGGAGTCA 
ACTCCTTCTA TTGCCATGAG TGAATCAGAA ATAACATTGA CTCCTGTTTA CACATCTGCA 
TCAGCTGCTA AATCTAGTGA TATTCAAACA CAATTCACTT CGACTTGGGT TGCTACAAAA 
TCTGACGGAT CTGTTACCAC TGAGTCTGGT ATTGTCAATC AATCTGGTAC TTCTTTCACC 
ACTATTGCCA CATTCCCACC ATCATCCACA TCATCAGATA TTACCACTGA GTTCATTTCT 
ACTTGGACCA CCATCAACTC CGATGGTTCT CTCACTACTG AAATTGGAGT TGTTAGTCAA 
TCTGGCACAT CATTAACTAC CATTGCTACA TTTCCACCTT CATCAATTCC ATCAGAAACT 
ATCAGTGAAT TTATTTCCAC CTGGACTACC ACCAATTCTG ACGGATCGGC TGCCACCAAG 
TCTGGTGTTG TTATTCAATC CGGTACTTCC TTTACTACTA TTGCCACGTT CCCACCATCA 
TTTACTTCAT CTGACATTAC CACTGAATTT ACCTCAACTT GGACTACTAC CAATTCCAAT 
GGATCTGTTG CAATTGAGTC TGGTATTGTT AATCAATCTG GAACTTCATT AACCACTTTA 
ACAACTTTTG AACCTGTTAC TTCATTAGTT GTGCCATCAT ATACTGCCAT TGAAACCGAA 
TTTACCTCCA TTTGGACCAC CGTCAGTTCT GATGGTTCTA TTGTTACTGG TTCTGGGATT 
GTTGGCCAAT CAGATACTTC TTTAACTACT TTTCCTCCAT CCTCCTCAGA TTTTGTTACT 
GATTTCACAT CAATTTGGGA AATCACCACT TCTAATGAAT CCAACGCAGC TGAATCTAGT 
GTCATGGATC AATCCAATGA AAGTTTGACA AGTACTACTA CTTCATATGA ATCTGCCACT 
GAATCCAATA TAGTTAGTCA ATCTGATGAA GTTTTGACTA GTGAGGCTAC TTCATTTGTA 
TCAGTCGGAG AAACTTCAGC TGCTATTACT ACCACTGTTG CACCCGCTTC TCCTTCTGCT 
AATATCAATA ATAGTGTTAC CATTCTTGTT TCCCCATCAG AATCGGAAAT CAATACCAGT 
AGTTCAATTT GGAATAATGA AAATAATACT TCTGGTTCTG TTTCAACCTC AGACTCAACA 
TCTATTACTG ATCATCATGA TGGTTCATTA TCTATAACCA AAACTGAACT GGAAATCAAT 
GGTGGTTATT CAACTGAATC AAGTTCCCTG ATTGTCACTG CTACTATCAC TAGTTGTAAC 
GAATCTGATT GTTCTGAAAG TGTTGTTACT TATGTTTCAA ATGTTTCTTA TACCACTGTT 
ACAACTGGAC ATTCCAATGA TAATGTTTCC ACTGCTGAAA ATAATGCTGG TAGTACTTTG 
ACTGAAAATG TTTCAAACAC AAAAACTATC TCAATTGAAA CCTATCCAGC TACCACTCTT 
AATCAATCAA CTTCACCATC AAATATCGCT GAATCAAACA AAACTTCAAT TGTTGATAGT 
GGAAACAACG ACACCGACAT CAATTCAGAT GATAAGACTG CTATTGTTAC CGCTGTTGCC 
ACTGGTGATG GTGTAGCAAG TAATGGTACT AATTTCGTTT CTCCATCAAC CATTGCTGAT 
GGATCTTCAA CTACTTCTGT TGGTATTCCA TTATCTTACG AAAATGGATC TAATCAATTA 
TCAATTGAAA ATATTAAATA TTTGGTATTG GTCGTGTTTG GATTATTGAT GGTTATGTAA

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

RefSeq	XP_002420246.1
CDS	1..3840
Translation	MKLFQNIIVSLALFTQLIFAIEIAENKVDRGTITLNLGDIIIYTGATWSIIDNAYTNFVGKLDVRADAGLYISLTSHLLALQVSLTTILHSITNNGIISFDSRVSRTSSSYDLRGVSFTNNGEMYFGSSGESSSSTSLTSALWTNTGLLLFFQNQRTSGTVNLGVSMGSITNDGQICLNNQVYEQATQIKGSGCFTAKGDSTIYIANVVLAVSSKQNFYLTDKGSSMIVQAVSTTQTFNVYGFGDGNKIGLTLPLVGTLFTSAYTYDTASGILTLRNTLLEQKFNIGTGYDPSKFQVVTDSGSGTPSTVLGSVAYYGRAPTRTLPKSCQIPCKPIPEAPGTNPTEYTTTITKTNPAGNTATETGVVHILTDKTGSWFTTTSIFPTLTTAIATSTPTTLSTGLSFSVNIPVETSSIEDSSSTLAGSESSVTQTTSIETPVSSYSSADQESVSIDESSVNGSTMVSSESALESASDIIIAEASSVESYPLSEQSVAHESTTTTIPMSATTETYVTESSEVVVDSSFVSEIHISKASSFSIVTPSETIIVDESFTSISAISTTASPSEISSDFVVSSASYSIFASETHISNDSESVEPSFVTPSESIIVIVSEPPISTDLIPSTTSQPEMSSVITESNIISSIVTALEMELSSTLDLSHSETSSIKESEIISVTSSVPTVDSTIADNKLTSTWKSSSLINSESTPSIAMSESEITLTPVYTSASAAKSSDIQTQFTSTWVATKSDGSVTTESGIVNQSGTSFTTIATFPPSSTSSDITTEFISTWTTINSDGSLTTEIGVVSQSGTSLTTIATFPPSSIPSETISEFISTWTTTNSDGSAATKSGVVIQSGTSFTTIATFPPSFTSSDITTEFTSTWTTTNSNGSVAIESGIVNQSGTSLTTLTTFEPVTSLVVPSYTAIETEFTSIWTTVSSDGSIVTGSGIVGQSDTSLTTFPPSSSDFVTDFTSIWEITTSNESNAAESSVMDQSNESLTSTTTSYESATESNIVSQSDEVLTSEATSFVSVGETSAAITTTVAPASPSANINNSVTILVSPSESEINTSSSIWNNENNTSGSVSTSDSTSITDHHDGSLSITKTELEINGGYSTESSSLIVTATITSCNESDCSESVVTYVSNVSYTTVTTGHSNDNVSTAENNAGSTLTENVSNTKTISIETYPATTLNQSTSPSNIAESNKTSIVDSGNNDTDINSDDKTAIVTAVATGDGVASNGTNFVSPSTIADGSSTTSVGIPLSYENGSNQLSIENIKYLVLVVFGLLMVM

Target ORF information:

RefSeq Version	XM_002420201.1
Organism	Candida dubliniensis CD36
Definition	Candida dubliniensis CD36 conserved hypothetical protein (CD36_46030), partial mRNA.

Target ORF information:

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

XM_002420201.1

ORF Insert Sequence:

ATGAAATTGT TCCAGAATAT TATTGTTTCC CTCGCTTTAT TCACTCAATT AATCTTTGCT 
ATCGAAATCG CTGAAAATAA AGTTGATCGT GGTACCATTA CTTTAAATTT AGGTGATATC 
ATTATTTATA CTGGTGCTAC TTGGTCAATC ATCGACAATG CTTATACCAA TTTTGTTGGC 
AAATTAGATG TCAGAGCTGA TGCTGGGTTA TATATCTCCC TGACTTCTCA TCTTTTGGCT 
CTTCAAGTTA GTTTGACAAC TATACTCCAT TCAATTACCA ATAACGGTAT TATCTCCTTT 
GATTCACGCG TTTCAAGAAC ATCATCTTCG TATGATTTGA GAGGCGTTTC CTTCACAAAC 
AATGGAGAAA TGTATTTTGG GTCTTCTGGT GAATCTTCAA GTTCCACTTC ACTTACTTCT 
GCTCTGTGGA CTAATACTGG GTTATTACTG TTTTTCCAAA ATCAAAGAAC TTCTGGTACA 
GTAAATCTTG GGGTTTCAAT GGGATCTATT ACCAATGATG GACAAATCTG TTTGAATAAT 
CAAGTTTATG AACAAGCAAC CCAAATTAAG GGTTCGGGTT GTTTCACTGC TAAAGGTGAC 
TCCACTATTT ATATCGCCAA TGTTGTATTA GCAGTTTCCT CCAAACAAAA TTTTTATTTA 
ACTGATAAAG GCTCTTCCAT GATTGTCCAA GCAGTATCAA CCACACAAAC ATTTAATGTT 
TATGGTTTTG GTGATGGTAA CAAAATTGGA TTAACTCTTC CCTTAGTTGG AACTCTTTTC 
ACTTCAGCTT ATACTTATGA TACTGCTTCT GGTATTTTGA CTTTAAGAAA TACTTTGCTT 
GAACAAAAAT TTAACATTGG TACAGGATAC GATCCATCTA AATTTCAAGT TGTTACAGAT 
TCTGGATCAG GTACTCCATC AACTGTCTTG GGTTCAGTTG CTTATTATGG CCGTGCCCCA 
ACGAGAACTT TGCCTAAATC CTGTCAAATT CCTTGTAAAC CAATTCCAGA AGCACCAGGA 
ACTAACCCAA CAGAATACAC TACCACAATT ACAAAAACTA ACCCTGCTGG AAACACAGCA 
ACTGAAACTG GTGTTGTTCA TATTCTGACA GATAAAACTG GATCTTGGTT CACCACGACA 
TCAATTTTCC CAACATTGAC AACTGCTATA GCTACATCCA CCCCAACTAC TTTATCTACT 
GGATTATCTT TCAGTGTCAA TATTCCAGTT GAAACTTCGT CAATTGAAGA CTCATCAAGT 
ACTTTAGCCG GTTCTGAATC TTCTGTTACT CAAACCACAT CCATAGAAAC CCCAGTTTCA 
AGTTACTCCT CTGCTGATCA AGAGTCAGTA TCCATTGATG AATCTTCTGT TAATGGCAGT 
ACTATGGTTT CCAGTGAATC TGCTCTTGAA TCTGCTAGTG ACATTATCAT TGCCGAGGCA 
TCTAGTGTTG AATCATATCC TTTGAGTGAA CAATCCGTTG CTCATGAATC TACTACTACT 
ACTATCCCAA TGTCTGCTAC TACTGAAACA TATGTTACTG AATCATCTGA AGTTGTGGTT 
GATTCATCAT TTGTTAGTGA AATCCATATT TCCAAAGCAT CTTCTTTTTC AATTGTGACA 
CCAAGCGAGA CCATAATTGT TGATGAATCA TTTACCAGTA TTAGTGCTAT CTCAACCACA 
GCATCACCTT CTGAAATATC ATCTGATTTC GTTGTATCAT CTGCATCTTA CTCAATTTTC 
GCCAGTGAAA CACATATCTC CAATGATTCT GAATCCGTTG AACCATCATT TGTTACCCCA 
AGTGAATCAA TAATTGTCAT TGTTTCTGAA CCACCTATTA GTACTGATTT AATCCCATCT 
ACTACCTCAC AACCTGAAAT GTCTTCTGTG ATTACTGAAT CAAACATCAT TTCATCAATT 
GTTACTGCTC TGGAAATGGA ATTATCATCT ACTTTGGATT TATCCCATTC TGAAACATCT 
TCAATCAAAG AGTCAGAAAT TATTAGTGTA ACTTCATCAG TACCAACTGT GGACTCCACT 
ATTGCTGACA ATAAATTAAC ATCCACTTGG AAATCATCCA GTTTAATCAA CTCGGAGTCA 
ACTCCTTCTA TTGCCATGAG TGAATCAGAA ATAACATTGA CTCCTGTTTA CACATCTGCA 
TCAGCTGCTA AATCTAGTGA TATTCAAACA CAATTCACTT CGACTTGGGT TGCTACAAAA 
TCTGACGGAT CTGTTACCAC TGAGTCTGGT ATTGTCAATC AATCTGGTAC TTCTTTCACC 
ACTATTGCCA CATTCCCACC ATCATCCACA TCATCAGATA TTACCACTGA GTTCATTTCT 
ACTTGGACCA CCATCAACTC CGATGGTTCT CTCACTACTG AAATTGGAGT TGTTAGTCAA 
TCTGGCACAT CATTAACTAC CATTGCTACA TTTCCACCTT CATCAATTCC ATCAGAAACT 
ATCAGTGAAT TTATTTCCAC CTGGACTACC ACCAATTCTG ACGGATCGGC TGCCACCAAG 
TCTGGTGTTG TTATTCAATC CGGTACTTCC TTTACTACTA TTGCCACGTT CCCACCATCA 
TTTACTTCAT CTGACATTAC CACTGAATTT ACCTCAACTT GGACTACTAC CAATTCCAAT 
GGATCTGTTG CAATTGAGTC TGGTATTGTT AATCAATCTG GAACTTCATT AACCACTTTA 
ACAACTTTTG AACCTGTTAC TTCATTAGTT GTGCCATCAT ATACTGCCAT TGAAACCGAA 
TTTACCTCCA TTTGGACCAC CGTCAGTTCT GATGGTTCTA TTGTTACTGG TTCTGGGATT 
GTTGGCCAAT CAGATACTTC TTTAACTACT TTTCCTCCAT CCTCCTCAGA TTTTGTTACT 
GATTTCACAT CAATTTGGGA AATCACCACT TCTAATGAAT CCAACGCAGC TGAATCTAGT 
GTCATGGATC AATCCAATGA AAGTTTGACA AGTACTACTA CTTCATATGA ATCTGCCACT 
GAATCCAATA TAGTTAGTCA ATCTGATGAA GTTTTGACTA GTGAGGCTAC TTCATTTGTA 
TCAGTCGGAG AAACTTCAGC TGCTATTACT ACCACTGTTG CACCCGCTTC TCCTTCTGCT 
AATATCAATA ATAGTGTTAC CATTCTTGTT TCCCCATCAG AATCGGAAAT CAATACCAGT 
AGTTCAATTT GGAATAATGA AAATAATACT TCTGGTTCTG TTTCAACCTC AGACTCAACA 
TCTATTACTG ATCATCATGA TGGTTCATTA TCTATAACCA AAACTGAACT GGAAATCAAT 
GGTGGTTATT CAACTGAATC AAGTTCCCTG ATTGTCACTG CTACTATCAC TAGTTGTAAC 
GAATCTGATT GTTCTGAAAG TGTTGTTACT TATGTTTCAA ATGTTTCTTA TACCACTGTT 
ACAACTGGAC ATTCCAATGA TAATGTTTCC ACTGCTGAAA ATAATGCTGG TAGTACTTTG 
ACTGAAAATG TTTCAAACAC AAAAACTATC TCAATTGAAA CCTATCCAGC TACCACTCTT 
AATCAATCAA CTTCACCATC AAATATCGCT GAATCAAACA AAACTTCAAT TGTTGATAGT 
GGAAACAACG ACACCGACAT CAATTCAGAT GATAAGACTG CTATTGTTAC CGCTGTTGCC 
ACTGGTGATG GTGTAGCAAG TAATGGTACT AATTTCGTTT CTCCATCAAC CATTGCTGAT 
GGATCTTCAA CTACTTCTGT TGGTATTCCA TTATCTTACG AAAATGGATC TAATCAATTA 
TCAATTGAAA ATATTAAATA TTTGGTATTG GTCGTGTTTG GATTATTGAT GGTTATGTAA

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_46030 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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