CD36_10000 cDNA ORF clone, Candida dubliniensis CD36

Gene
Clones
gRNAs

Summary

Gene Symbol	CD36_10000
Entrez Gene ID	8045191
Full Name	DNA-directed RNA polymerase I 190 kda polypeptide largest subunit, putative
Gene Type	protein-coding
Organism	Candida dubliniensis CD36

mRNA and Protein(s)

mRNA	Protein	Name
XM_002417598.1	XP_002417643.1	DNA-directed RNA polymerase I 190 kda polypeptide largest subunit, 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_10000 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CD36_10000 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
OCr00901	XM_002417598.1 Latest version!	Candida dubliniensis CD36 DNA-directed RNA polymerase I 190 kda polypeptide largest subunit, putative (CD36_10000), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

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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)

CD36_10000 ( XM_002417598.1 ) cDNA ORF clone, Candida dubliniensis CD36 -> XP_002417643.1 Candida dubliniensis CD36 DNA-directed RNA polymerase I 190 kda polypeptide largest subunit, putative (CD36_10000), partial mRNA.

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CloneID	OCr00901
Clone ID Related Accession (Same CDS sequence)	XM_002417598.1
Accession Version	XM_002417598.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4971bp) 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	DNA-directed RNA polymerase I 190 kda polypeptide largest subunit, 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_012860). COMPLETENESS: incomplete on both ends.

ATGGATATTT CAAAACCAGT AGGTTCAGAA ATTACTTCTG TTGATTTTGG GGTGTTATCT 
GACGAAGAAA TTAGAAAGTT ATCTGCCAAA CAAATCACTA ATCCAATCGT GTTTGATAAT 
TTGGGCCATC CGATAAATGG TGGGTTATAT GATTTGTCAC TTGGTGCATT TTTAAGAAAT 
GTATGTACAA CATGTGGATT AGATGAAAAA TTTTGTCCAG GTCATTTGGG ACATATTGAA 
TTACCTGTCC CTGTTTATAA TCCAATGTTC TTCAACCAAT TATACATTTT CTTGAGAAGT 
GCCTGTTTGT ATTGTCACAA GTTCAAACTT AATCAATTAG AAGTGCACAA TTTCGAATGT 
AAATTGCATT TGATTCAATA TGGGTTGTTA TTGGAATGTG TTGAGTTAGA TAATATAATG 
GCCAAATCCT CCAAATCTAG TAGCGAAATT GATATCGATG GTGAAGATGA TGATGAGGAA 
GGCTCAGTGG ATGAAAAATC TAAAAGAGAC CTTATGAAAC GTCGTGAATT ATTTGTTAAA 
AATGCTATTG AAAGTGCCTT GAAAGACGGT AGAACTAGTC ACAAAGGAGT TGTCACTGCT 
TCTGTGTCTG AAGAAAGAAA AGCAACTATT CATGATTTTT ATAAAAGATT ATTGAGTAGA 
CCAAAATGTA CCAATTGTGG TATGTACTCT CCAGGTTTCA GAAAAGATGG GTTTACCAAG 
ATTTTTGAAA ACTCGTTGAC TGATAAACAA ATAACCAATA ATCGTGTAAA AGGTTTGCAA 
CGTCCTGATA TGATCAAGAA AAATGCGGGC AATGGTAATT CAAGTTCTGC AGCAAGTGAT 
CTCCCAAATA TAAAGCACAA GGGAGGATCC AAGTATGTGT TATCCACTGA AGTTAGAAAT 
ATTTTAAGAT CATTATTCCA CAAGGAGCAG GCAATTTTAC AAAAAGTTTT CCATTCTAGA 
CCATACCAAC ATGACCCAAT TAGTGGAGAT CTTTTTTTCA AACAAGCAGT GTTAGTCCCT 
CCTACAAGAT TTAGATTACC TTCTAAATTA GGAGATGAAA TACACGAGAA TGCACAAAAT 
GAATTATTGT CGAATATTAT TAAAACTTCT GTTCTCATAA GGGATTTGAA CGAAAGAATT 
TCCAACATGT ACAAAGAGAA AATTAGTGGT GAAGACAAGA AGATTATTTT CAACAGATTG 
ATGAATGCAT TTGTGACTTT GCAGAACGAT GTCAATGCAT TTATCGATTC CACTAAGAAT 
CAGAATGCCC CAGCAGGGAA AGTACCAAAT CCAGGTATTA AACAAGCTTT GGAAAAGAAA 
GAAGGGTTAT TTAGAAAACA TATGATGGGT AAAAGAGTCA ATTATGCTGC TCGTTCAGTC 
ATTTCCCCAG ATCCTAATTT AGAGACTAAT GAAATTGGTG TTCCACCAGT TTTCGCCAAA 
AAATTGACTT ATCCTGAACC TGTTACATCT TATAATGTTT CTGAATTGAG GCAAGCAGTC 
ATAAATGGTC CAGACACCTG GCCAGGAGCA ATACAAGTAC AAAATGAAGA TGGATCCTTG 
ATTTCATTAG TTGGTATGAC ATTGGAACAA CGTAAGGCCA TTGCCAATCA ATTATTGACT 
CCAAATGGAG GTAATTCAGT TGTTGGTAAA AAAGTTTACA GACATATCAA GAACAATGAT 
GTGGTGATCA TGAATCGTCA ACCAACATTG CATAAGGCTT CTATGATGGG TCATAAAGTA 
AGAGTATTAC CTGGAGAGAA AACCTTGAGA TTACACTATG CCAACACTGG TGCGTATAAT 
GCTGATTTTG ATGGGGATGA AATGAATATG CATTTCCCTC AAAATGAAAA TGCTAGAGCT 
GAAGCTTTGA ATTTGGCAAA TACCGATAAT CAATACCTTA CTCCAACATC AGGTTCACCA 
TTGAGAGGGT TGATTCAGGA TCATATTTCT GCTGGGGTTT GGTTAACTAA CAAAGATACC 
TTTTTCAATA GAGAAACTTA TCAACAATTG ATTTATGGTT GTATTAGACC TGAAGATGGT 
CATACTTCTA AAAATCGAAT TGTAACAGTT CCACCAGCAA TTTACAAACC AGAAATGTTA 
TGGACAGGTA AACAAGTGAT TACTACTGTG TTGCTTAACA TCAAACCAGA CAATGTTCCT 
GGTGTCAATT TGATATCTAA AAACAAAATT AAGAGTGATT ATTGGAGTGA ATCAAGTACT 
GAAAACGAAG TTATTTTCAA GAATGGTGAA TTAGTATGTG GTATTTTGGA TAAATCGCAA 
TATGGTGCTT CTCAATTTGG TATTGTTCAT TCATTACACG AAGTCTATGG TCCAACTGTT 
GCCGGTAAGG CATTGAGTGT TTTGGGTAGA TTATTTACAA ACTATATCAT GATGACTGCA 
TTTACTTGTG GTATGGATGA TTTAAGATTG ACTGATGAAG GAAATACTTG GAGAAAAGAT 
ATTTTGAAAC AATCTGTTGA CATTGGAAGA GTTGCTGCTA CAGAAGTCAC TAATTTGGAT 
GAAGACACCA AGAATAACAA TAAAGAATTA TTAAGAAGAT TAGAAGAAAT TTTGAGAGAT 
GATAACAAAT TGGGTATTTT GGATGCGATC ACTCAATCTA AAGTTAATGC CATTACATCT 
CAAGTTGTTT CTAAGTGTGT TCCTGATGGT ACGATGAAAA GATTTCCTTA CAACTCTATG 
CAAGCGATGG CATTATCTGG TGCTAAAGGT TCTAATGTTA ACGTTTCACA AATTATGTGT 
CTTTTAGGGC AACAAGCTTT AGAAGGTAGA AGAGTTCCGG TGATGGTTTC TGGTAAGACA 
TTACCATCAT TCAAACCATT TGAAACCGAT GCTAGAGCTG GTGGTTATAT TAAGCAACGT 
TTCTATTCTG GTATCAGACC ACAAGAATAT TATTTCCATT GTATGGCTGG TAGAGAAGGT 
TTGATTGATA CCGCTGTCAA GACTTCGAGA TCTGGTTATT TGCAACGTTG TTTAACAAAA 
CAATTGGAAG GTGTTCATGT CAGTTATGAT AATTCTGTAA GAGATGCCGA TGGAACATTG 
ATCCAATTCC TTTATGGTGG AGATGCAGTT GACACGACTA AACAATCTCA TATGAATCAA 
TTCAAATTCT GTGTCGACAA TTATGATGCC TTGTTGACCA AATATAATCC TGGAGATATG 
ACTGAGAATA TTGATACTGA TTTGGCAATG TCATATTCCA AGAAAGTACG TAAATCATTG 
AAGAAACAAA ATGATATTCC ACATTACGAT CAAGTTATCA AATATGACCC AGTGTTGAAT 
GTTTATAATC CAGCCAAATA TTTGGGATCA GTATCTGAGA AATTCCAAGA AAAATTGGAT 
ACTTATGTTT CCAAGAATCC AACCGTATTT GCCCAATCAA AAGAAGAAGC TAAATCTACT 
GGCAAGATCA CGGAAAAGAA ATTCAGAGCC TTAATGCAAT TGAAATATAT GAGATCATTA 
ATTAATCCTG GTGAAGCTGT TGGTATTATT GCTTCTCAAT CTATTGGTGA ACCATCTACT 
CAAATGACTT TGAATACTTT CCATTTTGCT GGTCACGGTG CGGCAAATGT TACTTTAGGT 
ATCCCACGTA TGAGAGAAAT CATTATGACT GCATCTGCTA GTATTAAGAC TCCACAAATG 
ACATTACCTA TTTTAGCTGA TGTTAATGAT GAACAAGCAG ATGCATTTTG TAAATCTGTT 
GCTAGAGTTG TTATGTCTGA ATTTGTTGAT AAAGTTGTTG TTACTGAAAC CACATCTCAA 
GATGTTGATG GATCTAATAG TAGATCTTAT GTTATTGGTT TGAAATTCTA TACCAAAGAA 
GAATATGAAA CTGAATATGA TATTTCACAA GAACAATTAG AAGATGTCAT TACTAGCAAA 
TTCTTGCATG CGTTAGAATC ACAAATTGTC AAAGAAGTTA AGAAACAAAA GAAACCTGAT 
TATATGCCAA CTGTTGGTAA ATCAGCTGGT AAGACCGATA TGGAAACTGT ATCAGGAAAG 
ATAAAGGAAA TAGATAACGG CGACGACGAT GATGATGATG ATAATGAAAT TGATGAAGAT 
CATGATGAAG AACAAGCGAA ACAAAATGTT AAGCAACAAG TTTCATATGA AGGACCAGAT 
GATGATGAAA TTGAAACCAT GAAAAAAGCA GAAGAAACAA GTGATGAAGA AATGGACGGT 
GATAATTCTT CTAGTTCTGA TGAGTCAGAA CTGGATAGTG ACAACGATGA AGATGTTGAC 
ATGGATAAAC CTTCCAAACC AGAATTGTCA CGTTCTGCTA AAGATCGTCA ATCAGAAGTT 
ATAGCATCAC ATAACATGGT GACCCAATTC AATTTTGATG ATGAAGTGGG TGAATGGTGT 
GAATTCAAAT TAGAATTGAA TGGTAATGAA ACACAAAAGT TGTTGATGGT TAATATTGTT 
GAAGATTTGT TACGTAAAGT TGTTGTTCGT GAAATCCCTC ATATTGGTAG ATGTATACGT 
CCGGAACCAG ATGCTAAAAC TGGTAAGAGA ATATTAACTA CTGAAGGGGT TAATTTCAAA 
GCTATGTGGG ATCAAGATGA TTTCATCAAT GTCAATGGAA TCACATCCAA TGATGTTTAT 
GCTGTTTTGA AAACTTATGG TGTGGAAGCA GCTAGAAACA CCATTGTTAA TGAAATCTAT 
AGAGTGTTCG ATACTTATGG TATTAGCGTT TCTTCACGTC ATTTGGATTT GATTGCTGAT 
ATGATGACCA GAGAAGGTAC TTATTTGGCA TTCAATAGAC AAGGTATTGA TAGTAGTACA 
TCAGCATTTA TGAAAATGTC TTATGAAACA ACTTGTCAGT TTTTGACTAA AGCAGTGTTG 
GATGGTGATC GAGAAGAATT GGAATCTCCT TCTGCTAAAA TTGTTATGGG TAAATTATCT 
AATGTTGGTA CTGGATCATT TGATGTATTT GCCCAAATGC CAAGAATGTG A

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

RefSeq	XP_002417643.1
CDS	1..4971
Translation	MDISKPVGSEITSVDFGVLSDEEIRKLSAKQITNPIVFDNLGHPINGGLYDLSLGAFLRNVCTTCGLDEKFCPGHLGHIELPVPVYNPMFFNQLYIFLRSACLYCHKFKLNQLEVHNFECKLHLIQYGLLLECVELDNIMAKSSKSSSEIDIDGEDDDEEGSVDEKSKRDLMKRRELFVKNAIESALKDGRTSHKGVVTASVSEERKATIHDFYKRLLSRPKCTNCGMYSPGFRKDGFTKIFENSLTDKQITNNRVKGLQRPDMIKKNAGNGNSSSAASDLPNIKHKGGSKYVLSTEVRNILRSLFHKEQAILQKVFHSRPYQHDPISGDLFFKQAVLVPPTRFRLPSKLGDEIHENAQNELLSNIIKTSVLIRDLNERISNMYKEKISGEDKKIIFNRLMNAFVTLQNDVNAFIDSTKNQNAPAGKVPNPGIKQALEKKEGLFRKHMMGKRVNYAARSVISPDPNLETNEIGVPPVFAKKLTYPEPVTSYNVSELRQAVINGPDTWPGAIQVQNEDGSLISLVGMTLEQRKAIANQLLTPNGGNSVVGKKVYRHIKNNDVVIMNRQPTLHKASMMGHKVRVLPGEKTLRLHYANTGAYNADFDGDEMNMHFPQNENARAEALNLANTDNQYLTPTSGSPLRGLIQDHISAGVWLTNKDTFFNRETYQQLIYGCIRPEDGHTSKNRIVTVPPAIYKPEMLWTGKQVITTVLLNIKPDNVPGVNLISKNKIKSDYWSESSTENEVIFKNGELVCGILDKSQYGASQFGIVHSLHEVYGPTVAGKALSVLGRLFTNYIMMTAFTCGMDDLRLTDEGNTWRKDILKQSVDIGRVAATEVTNLDEDTKNNNKELLRRLEEILRDDNKLGILDAITQSKVNAITSQVVSKCVPDGTMKRFPYNSMQAMALSGAKGSNVNVSQIMCLLGQQALEGRRVPVMVSGKTLPSFKPFETDARAGGYIKQRFYSGIRPQEYYFHCMAGREGLIDTAVKTSRSGYLQRCLTKQLEGVHVSYDNSVRDADGTLIQFLYGGDAVDTTKQSHMNQFKFCVDNYDALLTKYNPGDMTENIDTDLAMSYSKKVRKSLKKQNDIPHYDQVIKYDPVLNVYNPAKYLGSVSEKFQEKLDTYVSKNPTVFAQSKEEAKSTGKITEKKFRALMQLKYMRSLINPGEAVGIIASQSIGEPSTQMTLNTFHFAGHGAANVTLGIPRMREIIMTASASIKTPQMTLPILADVNDEQADAFCKSVARVVMSEFVDKVVVTETTSQDVDGSNSRSYVIGLKFYTKEEYETEYDISQEQLEDVITSKFLHALESQIVKEVKKQKKPDYMPTVGKSAGKTDMETVSGKIKEIDNGDDDDDDDNEIDEDHDEEQAKQNVKQQVSYEGPDDDEIETMKKAEETSDEEMDGDNSSSSDESELDSDNDEDVDMDKPSKPELSRSAKDRQSEVIASHNMVTQFNFDDEVGEWCEFKLELNGNETQKLLMVNIVEDLLRKVVVREIPHIGRCIRPEPDAKTGKRILTTEGVNFKAMWDQDDFINVNGITSNDVYAVLKTYGVEAARNTIVNEIYRVFDTYGISVSSRHLDLIADMMTREGTYLAFNRQGIDSSTSAFMKMSYETTCQFLTKAVLDGDREELESPSAKIVMGKLSNVGTGSFDVFAQMPRM

Target ORF information:

RefSeq Version	XM_002417598.1
Organism	Candida dubliniensis CD36
Definition	Candida dubliniensis CD36 DNA-directed RNA polymerase I 190 kda polypeptide largest subunit, putative (CD36_10000), partial mRNA.

Target ORF information:

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

XM_002417598.1

ORF Insert Sequence:

ATGGATATTT CAAAACCAGT AGGTTCAGAA ATTACTTCTG TTGATTTTGG GGTGTTATCT 
GACGAAGAAA TTAGAAAGTT ATCTGCCAAA CAAATCACTA ATCCAATCGT GTTTGATAAT 
TTGGGCCATC CGATAAATGG TGGGTTATAT GATTTGTCAC TTGGTGCATT TTTAAGAAAT 
GTATGTACAA CATGTGGATT AGATGAAAAA TTTTGTCCAG GTCATTTGGG ACATATTGAA 
TTACCTGTCC CTGTTTATAA TCCAATGTTC TTCAACCAAT TATACATTTT CTTGAGAAGT 
GCCTGTTTGT ATTGTCACAA GTTCAAACTT AATCAATTAG AAGTGCACAA TTTCGAATGT 
AAATTGCATT TGATTCAATA TGGGTTGTTA TTGGAATGTG TTGAGTTAGA TAATATAATG 
GCCAAATCCT CCAAATCTAG TAGCGAAATT GATATCGATG GTGAAGATGA TGATGAGGAA 
GGCTCAGTGG ATGAAAAATC TAAAAGAGAC CTTATGAAAC GTCGTGAATT ATTTGTTAAA 
AATGCTATTG AAAGTGCCTT GAAAGACGGT AGAACTAGTC ACAAAGGAGT TGTCACTGCT 
TCTGTGTCTG AAGAAAGAAA AGCAACTATT CATGATTTTT ATAAAAGATT ATTGAGTAGA 
CCAAAATGTA CCAATTGTGG TATGTACTCT CCAGGTTTCA GAAAAGATGG GTTTACCAAG 
ATTTTTGAAA ACTCGTTGAC TGATAAACAA ATAACCAATA ATCGTGTAAA AGGTTTGCAA 
CGTCCTGATA TGATCAAGAA AAATGCGGGC AATGGTAATT CAAGTTCTGC AGCAAGTGAT 
CTCCCAAATA TAAAGCACAA GGGAGGATCC AAGTATGTGT TATCCACTGA AGTTAGAAAT 
ATTTTAAGAT CATTATTCCA CAAGGAGCAG GCAATTTTAC AAAAAGTTTT CCATTCTAGA 
CCATACCAAC ATGACCCAAT TAGTGGAGAT CTTTTTTTCA AACAAGCAGT GTTAGTCCCT 
CCTACAAGAT TTAGATTACC TTCTAAATTA GGAGATGAAA TACACGAGAA TGCACAAAAT 
GAATTATTGT CGAATATTAT TAAAACTTCT GTTCTCATAA GGGATTTGAA CGAAAGAATT 
TCCAACATGT ACAAAGAGAA AATTAGTGGT GAAGACAAGA AGATTATTTT CAACAGATTG 
ATGAATGCAT TTGTGACTTT GCAGAACGAT GTCAATGCAT TTATCGATTC CACTAAGAAT 
CAGAATGCCC CAGCAGGGAA AGTACCAAAT CCAGGTATTA AACAAGCTTT GGAAAAGAAA 
GAAGGGTTAT TTAGAAAACA TATGATGGGT AAAAGAGTCA ATTATGCTGC TCGTTCAGTC 
ATTTCCCCAG ATCCTAATTT AGAGACTAAT GAAATTGGTG TTCCACCAGT TTTCGCCAAA 
AAATTGACTT ATCCTGAACC TGTTACATCT TATAATGTTT CTGAATTGAG GCAAGCAGTC 
ATAAATGGTC CAGACACCTG GCCAGGAGCA ATACAAGTAC AAAATGAAGA TGGATCCTTG 
ATTTCATTAG TTGGTATGAC ATTGGAACAA CGTAAGGCCA TTGCCAATCA ATTATTGACT 
CCAAATGGAG GTAATTCAGT TGTTGGTAAA AAAGTTTACA GACATATCAA GAACAATGAT 
GTGGTGATCA TGAATCGTCA ACCAACATTG CATAAGGCTT CTATGATGGG TCATAAAGTA 
AGAGTATTAC CTGGAGAGAA AACCTTGAGA TTACACTATG CCAACACTGG TGCGTATAAT 
GCTGATTTTG ATGGGGATGA AATGAATATG CATTTCCCTC AAAATGAAAA TGCTAGAGCT 
GAAGCTTTGA ATTTGGCAAA TACCGATAAT CAATACCTTA CTCCAACATC AGGTTCACCA 
TTGAGAGGGT TGATTCAGGA TCATATTTCT GCTGGGGTTT GGTTAACTAA CAAAGATACC 
TTTTTCAATA GAGAAACTTA TCAACAATTG ATTTATGGTT GTATTAGACC TGAAGATGGT 
CATACTTCTA AAAATCGAAT TGTAACAGTT CCACCAGCAA TTTACAAACC AGAAATGTTA 
TGGACAGGTA AACAAGTGAT TACTACTGTG TTGCTTAACA TCAAACCAGA CAATGTTCCT 
GGTGTCAATT TGATATCTAA AAACAAAATT AAGAGTGATT ATTGGAGTGA ATCAAGTACT 
GAAAACGAAG TTATTTTCAA GAATGGTGAA TTAGTATGTG GTATTTTGGA TAAATCGCAA 
TATGGTGCTT CTCAATTTGG TATTGTTCAT TCATTACACG AAGTCTATGG TCCAACTGTT 
GCCGGTAAGG CATTGAGTGT TTTGGGTAGA TTATTTACAA ACTATATCAT GATGACTGCA 
TTTACTTGTG GTATGGATGA TTTAAGATTG ACTGATGAAG GAAATACTTG GAGAAAAGAT 
ATTTTGAAAC AATCTGTTGA CATTGGAAGA GTTGCTGCTA CAGAAGTCAC TAATTTGGAT 
GAAGACACCA AGAATAACAA TAAAGAATTA TTAAGAAGAT TAGAAGAAAT TTTGAGAGAT 
GATAACAAAT TGGGTATTTT GGATGCGATC ACTCAATCTA AAGTTAATGC CATTACATCT 
CAAGTTGTTT CTAAGTGTGT TCCTGATGGT ACGATGAAAA GATTTCCTTA CAACTCTATG 
CAAGCGATGG CATTATCTGG TGCTAAAGGT TCTAATGTTA ACGTTTCACA AATTATGTGT 
CTTTTAGGGC AACAAGCTTT AGAAGGTAGA AGAGTTCCGG TGATGGTTTC TGGTAAGACA 
TTACCATCAT TCAAACCATT TGAAACCGAT GCTAGAGCTG GTGGTTATAT TAAGCAACGT 
TTCTATTCTG GTATCAGACC ACAAGAATAT TATTTCCATT GTATGGCTGG TAGAGAAGGT 
TTGATTGATA CCGCTGTCAA GACTTCGAGA TCTGGTTATT TGCAACGTTG TTTAACAAAA 
CAATTGGAAG GTGTTCATGT CAGTTATGAT AATTCTGTAA GAGATGCCGA TGGAACATTG 
ATCCAATTCC TTTATGGTGG AGATGCAGTT GACACGACTA AACAATCTCA TATGAATCAA 
TTCAAATTCT GTGTCGACAA TTATGATGCC TTGTTGACCA AATATAATCC TGGAGATATG 
ACTGAGAATA TTGATACTGA TTTGGCAATG TCATATTCCA AGAAAGTACG TAAATCATTG 
AAGAAACAAA ATGATATTCC ACATTACGAT CAAGTTATCA AATATGACCC AGTGTTGAAT 
GTTTATAATC CAGCCAAATA TTTGGGATCA GTATCTGAGA AATTCCAAGA AAAATTGGAT 
ACTTATGTTT CCAAGAATCC AACCGTATTT GCCCAATCAA AAGAAGAAGC TAAATCTACT 
GGCAAGATCA CGGAAAAGAA ATTCAGAGCC TTAATGCAAT TGAAATATAT GAGATCATTA 
ATTAATCCTG GTGAAGCTGT TGGTATTATT GCTTCTCAAT CTATTGGTGA ACCATCTACT 
CAAATGACTT TGAATACTTT CCATTTTGCT GGTCACGGTG CGGCAAATGT TACTTTAGGT 
ATCCCACGTA TGAGAGAAAT CATTATGACT GCATCTGCTA GTATTAAGAC TCCACAAATG 
ACATTACCTA TTTTAGCTGA TGTTAATGAT GAACAAGCAG ATGCATTTTG TAAATCTGTT 
GCTAGAGTTG TTATGTCTGA ATTTGTTGAT AAAGTTGTTG TTACTGAAAC CACATCTCAA 
GATGTTGATG GATCTAATAG TAGATCTTAT GTTATTGGTT TGAAATTCTA TACCAAAGAA 
GAATATGAAA CTGAATATGA TATTTCACAA GAACAATTAG AAGATGTCAT TACTAGCAAA 
TTCTTGCATG CGTTAGAATC ACAAATTGTC AAAGAAGTTA AGAAACAAAA GAAACCTGAT 
TATATGCCAA CTGTTGGTAA ATCAGCTGGT AAGACCGATA TGGAAACTGT ATCAGGAAAG 
ATAAAGGAAA TAGATAACGG CGACGACGAT GATGATGATG ATAATGAAAT TGATGAAGAT 
CATGATGAAG AACAAGCGAA ACAAAATGTT AAGCAACAAG TTTCATATGA AGGACCAGAT 
GATGATGAAA TTGAAACCAT GAAAAAAGCA GAAGAAACAA GTGATGAAGA AATGGACGGT 
GATAATTCTT CTAGTTCTGA TGAGTCAGAA CTGGATAGTG ACAACGATGA AGATGTTGAC 
ATGGATAAAC CTTCCAAACC AGAATTGTCA CGTTCTGCTA AAGATCGTCA ATCAGAAGTT 
ATAGCATCAC ATAACATGGT GACCCAATTC AATTTTGATG ATGAAGTGGG TGAATGGTGT 
GAATTCAAAT TAGAATTGAA TGGTAATGAA ACACAAAAGT TGTTGATGGT TAATATTGTT 
GAAGATTTGT TACGTAAAGT TGTTGTTCGT GAAATCCCTC ATATTGGTAG ATGTATACGT 
CCGGAACCAG ATGCTAAAAC TGGTAAGAGA ATATTAACTA CTGAAGGGGT TAATTTCAAA 
GCTATGTGGG ATCAAGATGA TTTCATCAAT GTCAATGGAA TCACATCCAA TGATGTTTAT 
GCTGTTTTGA AAACTTATGG TGTGGAAGCA GCTAGAAACA CCATTGTTAA TGAAATCTAT 
AGAGTGTTCG ATACTTATGG TATTAGCGTT TCTTCACGTC ATTTGGATTT GATTGCTGAT 
ATGATGACCA GAGAAGGTAC TTATTTGGCA TTCAATAGAC AAGGTATTGA TAGTAGTACA 
TCAGCATTTA TGAAAATGTC TTATGAAACA ACTTGTCAGT TTTTGACTAA AGCAGTGTTG 
GATGGTGATC GAGAAGAATT GGAATCTCCT TCTGCTAAAA TTGTTATGGG TAAATTATCT 
AATGTTGGTA CTGGATCATT TGATGTATTT GCCCAAATGC CAAGAATGTG A

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_10000 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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