DUR1,2 cDNA ORF clone, Candida albicans SC5314

Gene
Clones
gRNAs

Summary

Gene Symbol	DUR1,2
Entrez Gene ID	3644771
Full Name	bifunctional urea carboxylase/allophanate hydrolase
Synonyms	CaO19.780
Gene Type	protein-coding
Organism	Candida albicans SC5314

mRNA and Protein(s)

mRNA	Protein	Name
XM_708497.2	XP_713590.2	bifunctional urea carboxylase/allophanate hydrolase

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Assembly of a phased diploid Candida albicans genome facilitates allele-specific measurements and provides a simple model for repeat and indel structure.
Muzzey D, Schwartz K, Weissman JS, Sherlock G
Genome biology14(9)R97(2013)

Assembly of the Candida albicans genome into sixteen supercontigs aligned on the eight chromosomes.
van het Hoog M, Rast TJ, Martchenko M, Grindle S, Dignard D, Hogues H, Cuomo C, Berriman M, Scherer S, Magee BB, Whiteway M, Chibana H, Nantel A, Magee PT
Genome biology8(4)R52(2007)

The diploid genome sequence of Candida albicans.
Jones T, Federspiel NA, Chibana H, Dungan J, Kalman S, Magee BB, Newport G, Thorstenson YR, Agabian N, Magee PT, Davis RW, Scherer S
Proceedings of the National Academy of Sciences of the United States of America101(19)7329-34(2004 May)

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

The following DUR1,2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DUR1,2 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
OCg09606	XM_708497.2 Latest version!	Candida albicans SC5314 bifunctional urea carboxylase/allophanate hydrolase (DUR1,2), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00

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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)

DUR1,2 ( XM_708497.2 ) cDNA ORF clone, Candida albicans SC5314 -> XP_713590.2 Candida albicans SC5314 bifunctional urea carboxylase/allophanate hydrolase (DUR1,2), partial mRNA.

Price & Availability↑

CloneID	OCg09606
Clone ID Related Accession (Same CDS sequence)	XM_708497.2
Accession Version	XM_708497.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5442bp) 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	1522684800000
Organism	Candida albicans SC5314
Product	bifunctional urea carboxylase/allophanate hydrolase
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_032089). On Dec 8, 2016 this sequence version replaced XM_708497.1. ##Genome-Annotation-Data-START## Annotation Provider :: CGD Annotation Status :: Full annotation Annotation Version :: A22-s07-m01-r01 URL :: http://www.candidagenome.org/ ##Genome-Annotation-Data-END## COMPLETENESS: incomplete on both ends.

ATGTCATACT TAGGTTGGTC AGTAGAAGAT TGGAAAAAGT TTCATTACGA ATCAACACCA 
GATGAATCTT TTGAATTATT ATCCCAATTA TTAAAATCCC AAAAAGCTGC TCCAGAAGAT 
CCTGCTTGGA TATCCTTAGC TTCCATAGAG AATTTGGAAC ACCAATGGAA ATTTTTACAA 
TCAAAATCGA ATAAACGAGA TTTACCGTTA TACGGGGTCC CCATAGCAGT TAAAGATAAC 
ATAGATGCTA AAACATTTGA AACTACAGCA GCTTGTCCTT CATTTGCTTA CTCTCCGTCA 
AAAGATGCCA CTACAGTTAG ATTGTTAAGA GATGCCGGTG CCATAGTTAT TGGGAAAACC 
AATTTAGATC AATTTGCAAC AGGTTTAGTC GGTACAAGGT CTCCCTACGG AATAACTCCA 
AATACATTCA ATCCAAAGTA CGTCAGTGGT GGATCTTCAG CCGGATCTGC CTCGGTGGTT 
GCTAGAGGTA TTGTTCCAAT TGCATTAGGT ACCGATACTG CTGGATCAGG AAGAGTCCCC 
GCAGCATTGA ATAATCTTAT TGGATTGAAA CCAACAAAAG GTGTCTTTTC ATGTTCAGGT 
GTTGTTCCAG CATGTAAGTC ACTTGATTGT GTTTCGATAT TTGCATTGAA TTTGCAAGAT 
GCACAGCTTA CGTTTAATAT TATGGCAGAA GAAGATGAAC ATGACGAATT TTCAAGATCA 
ATGCCAAAAA ATCCATTATT GAAATTTGGC AAAAAACCTA GAGTTGTAGT ACCAACCAAT 
TTGTTATGGT ACGGCGAGAA AGAAAACCCT AAATTATACC AAGAAGCAGT TGCTAAATTT 
GAAAAAATCG GGTGTGAATT GGTATCTTTG GATATTGAAC CATTGCTAGA ATTAGCTAGA 
TGCTTATATG AAGGTCCATG GGTTGCTGAA CGTTATGTTG CTGTTAAAGA TTTCTTTGCC 
ACAAATACAC CGGAAAAGGA TTTGGATCCA ACAGTCACCA AAATTATTAA AGGTGGAGAA 
CATTATTCTG CAGCCACTTG TTTCCAATAT GAATACAAAA GACAGGGAAT TGTGAAGAGA 
GTCAACAAAT TGTTAGAAGG CATTGATGCT ATTATTGTAC CAACAGCCCC ATTGAATCCA 
ACAATCGAAG AAGTCACCAA CGAACCAATC AAAGTCAACT CATGTCAAGG TACTTATACC 
AACTTTGTCA ACTTGGCAGA TATGTCTGCA CTAGCTATCC CAGCAGGATT CAGAAATGAT 
GGATTACCCT TCGGTGTCAC ATTGTTATCA CACAAGTTCA ACGATTATGC ATTATTAGAC 
TTAGCCAGTC GTTACTTGAA ACTCGACAAT TTACGTACAT GTGGTGTTTC ACAAAAGAAA 
GTGTCTACCA TCCATGATGA ATTGTACTTA TTACCAAAAT CTACCCCCGA AGAAACTGTT 
AAATTGGCTG TTGTTGGAGC TCATCTTAAA GGATTTGAAT TACATTGGCA ATTGGAAAAA 
GTTGATGCTC GATTTATTGA ATCAACAACA ACTTCGAAAA ACTATAAATT ATATGCCTTG 
CCGAAGACAG GACCCGTTGC CAAACCTGGT TTGAGAAGAG TGGAATCCGA TGGTGAACAT 
ATAGCTGTTG AAACCTATAG TATTCCAAAA GAGAAATTTG GACAATTTAT CAAATTTGTT 
CCTGAACCAT TAGGTATTGG ATCGGTCGAA TTAAAATCAG GTGAATGGTG TAAATCTTTT 
ATCTGTGAAG AATTTGGTTA CAAACAACCT GGTACTGTTG ACATTACTGA ATTTGGCGGT 
TGGAAAAAGT ATCAAGAACA TTTGCGTGCC TCCAAAAAAC CATTCAATTC AGTTTTGGTT 
GCCAATAGAG GAGAAATTGC CGTTAGAATA ATCAAAACTT TGAAAAAATT GGGGGTAAAA 
TCTATTGCTG TCTATTCAGA TCCAGATAAG TATGCTCAAC ACTCATTAAT GGCAGATGTT 
GCAATTCCAT TGCATGGTAC AACAGCTGCT GAAACTTATA TCAACATTGA AAAAGTTATC 
AAAGCAGCCA AGGAGTCTGG TGCAGAAGCT ATCATCCCAG GTTATGGGTT CTTATCCGAA 
AATGCGGATT TCTCAGATCG TTGTGGTAAA GAAGGAATTG TGTTTGTTGG TCCATCTGGT 
GATGCCATTA GAAAATTGGG ATTAAAACAT TCAGCTAGAG AAATTGCCGA AAAAGCTGGA 
GTGCCGTTGG TTCCTGGTTC AGGTTTGGTG AAAGATGCCA AAGAAGCCAG AGCGATTGCT 
GCCAAATTGG AATATCCAAT TATGGTCAAA TCTACTGCAG GTGGTGGTGG TATTGGTTTA 
CAAAAAGTAG ATTCTGAAAA AGATATTGAA AGAGTTTTTG AAACCGTTCA ACATCAAGGA 
AAATCCTATT TCGGAGACTC AGGGGTATTT TTGGAAAGAT TTGTTGAAAA TGCCAGACAC 
GTTGAAATCC AAATGTTAGG TGATGGTTAC GGTAATGCCA TTGCTGTTGG TGAAAGAGAT 
TGTTCTTTAC AACGTAGAAA CCAAAAGATC ATTGAAGAGA CTCCTGCACC CAATTTACCA 
GAAGAAACCA GAAATAAAAT GAGAAAAGCA GCTGAATCAC TTGGTTCATC TATGAAATAT 
AAATGTGCCG GTACAGTGGA ATATATTTAC GATCCCAAGA GAGATGAATT CTACTTTTTA 
GAAGTAAATG CCAGATTACA AGTTGAACAT CCAATTACAG AAATGGTCAC TGGATTAGAT 
TTAGTTGAAT GGATGCTTTT GATAGCTGCA GACACCCCAC CTGATTTCAA CCAAAAAATT 
GAAGTCAAAG GAGCATCAAT GGAAGCTAGA TTATATGCCG AGAATCCAGT TAAAGGTTTC 
ATGCCATCAC CAGGTCAATT GACAGAAGTA AAATTCCCTG AATGGGCTAG AATCGATAGT 
TGGGTTGAAA AAGGTACTAT TGTTTCTGCT GAATATGACC CCACCTTAGC TAAAATCATT 
GTTCATGGTA AGGATAGAGA TGATGCCTTA AAGAAGTTAC GTCAAGCATT GAATGAAACT 
GTTGTTTATG GATGTATCAC CAATGTTGAC TATTTGAGAT CGATTGCTAA TTCGAAAATG 
TTTGAGGAAG CAGCTGTAGC CACCAAAGTT TTGGACTCTT ATGACTACAA GCCACATGCC 
ATTGAAATTT TACAACCAGG TGCTTACACT ACAGTACAAG ACTACCCCGG TAGAAGGGGC 
TACTGGCACA TTGGGGTTCC ACCATCAGGT TGTATGGATC AATATTCATT CAGAGTTGCT 
AATAAAATTG TTGGTAACGA TGCAGCATCT CCTGGTATTG AAATCACATT GAATGGACCA 
AAACTTTTGT TCCATCAAGA TTGTGTTGTT GCTGTCACTG GTGGTAAGAC TAAAGTTGAA 
GTTAACCAAG TTGAAGTTAA TCAATGGGAA CCAATTAACA TCAAAAGTGG AGATAAATTG 
GATATTGGTA AATTGTCCAC TGGTTGCAGA GCTTACTTGG CCATTAGAGG CGGTGTTGAT 
GTTGTTGAAT ATTTGGGTTC AAGATCAACT TTTGCATTAG GTAATTTGGG TGGTTACAAT 
GGTAGAGTCT TGAAATTGGG TGATGTTTTA TTTTTGGGAC AACCTGATGT TACAAGTTGT 
ACTTTACCAG GCCCCATTTC CCAACCAACT CCTGTTCCAG CATCATTAAT TCCAAATTAT 
GACAACAAAG TTTGGAAGAT TGGTGTTACC TGTGGTCCAC ATGGATCTCC AGATTTTTTT 
AAAGCTGAAT CGGTTGAGGA ATTTTTCTCT TCCACTTGGA AAGTGCATTA TAATTCCAAC 
AGATTTGGTG TTAGATTGAT TGGACCAAAA CCTAAATGGG CTAGAAAGGA TGGTGGCGAA 
GGTGGGTTAC ATCCATCAAA CACTCATGAT TATGTTTATT CCATGGGTGC TATCAATTTC 
ACTGGTGACG AACCAGTCAT TTTAACATGC GATGGCCCAT CCTTAGGTGG GTTTGTTTGT 
GAAGCAGTTG TTGCTGAATC TGAATTATGG AAAGTTGGTC AAGTCAAACC AGGTGAATCA 
ATTCAATTTG TCCCAATAAG TTATGAATCT GCTAAAAATT TGAAAAAACA ACAAAATGCT 
GCAATTGAAA ACTTATCTGG TGATTTGCCA TCTTTAGAAA CCGTTTCATT ATCAGCTCCA 
GAAAACCCAA TCTTGCATCA ATTCAAAGTT TCTTCAAATG CTCCAAAAGT AACCTATCGT 
CAAGCTGGTG ATAGATATAT TCTTGTTGAA TACGGAGACA ATCTTCTTGA TTTGAATTTG 
GCTTACAGAA TCCACAAATT AGATGCAATG GTCAAAGAAT ATAAACCTAA AGGTATTTTT 
GAATTATCTG CTGGTGTTAG ATCAGTGTTG GTTGAATATA CTGATGAAAT CACCCAAAAG 
GAAGCCTTGG ATACTTTAGT TTCTTATGAA AAGGAAATCA TATTTGTTAA CAAATGGAAA 
GTGAGTTCGA GAATTATTAA ATTACCAATG GCTTTTGAAG ACAAGAAAAC ATTGGATGCA 
GTCAAAAGAT ACCAAGAAAC CATTAGAAGT GAGGCACCAT GGTTACCAAA CAATGTTGAT 
TTTATTGCTA ACATTAATGG AATCACAAGA ACAGATGTTA AAGATATGTT GTATACTGCC 
AGATTTTTGG TTTTAGGTTT AGGGGACGTC TTCCTTGGGG CACCATGCGC CGTTCCATTA 
GACCCAAGAC ATAGATTATT GGGTACCAAA TATAATCCAT CAAGAACTTT TACTCCAAAT 
GGTACTGTTG GTATTGGTGG TAATTATATG TGTATTTATA CCATGGAATC ACCAGGTGGT 
TATCAATTAG TTGGAAGGAC AGTTCCAATT TGGGATAAAT TGAGTTTAGG TGAACACTCA 
CCAAACACTA AACCATGGTT ATTGAGTCCA TTCGATCAAA TTGAATTTTA TCCTGTTACT 
GAAGAAGAAG TTGATGCATT TTCTGAACAA ATGAATGCTG GTAAATTCAA AGTTGATATT 
GTTGAATCAG TTTTCGATCA TGGTAAATAT TTGGAATGGA TTCAAGAAAA CTCTAAATCA 
ATTGAGGAAT TCCAACAAAA CCAAGGAGGT GAGAAATTAG AAGAATTCAA TAGATTGATT 
CAAATCTCAA ACAGTGAATT GGAAAAACTG GGAACTAAAG TTCAAGATGA CGAAAAATTT 
GATGATAATG CTGAATTGGT GTATTCTGAA TATTCTGGTA GATTCTGGAA ATCAGTAGTT 
GAAGTTGGAG ATAAAGTTAC TGCTCATCAG CCATTGATTG TTGTTGAAGC AATGAAAACA 
GAAATGGTTG TTAATGCACC AAGAGATGGT AAGGTGCTTA AAATTTACCA CAAGAATGGG 
GATATGGTGG AGGCCGGTGA TTTAGTGGTT GTTTTAGAAT AA

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

RefSeq	XP_713590.2
CDS	1..5442
Translation	MSYLGWSVEDWKKFHYESTPDESFELLSQLLKSQKAAPEDPAWISLASIENLEHQWKFLQSKSNKRDLPLYGVPIAVKDNIDAKTFETTAACPSFAYSPSKDATTVRLLRDAGAIVIGKTNLDQFATGLVGTRSPYGITPNTFNPKYVSGGSSAGSASVVARGIVPIALGTDTAGSGRVPAALNNLIGLKPTKGVFSCSGVVPACKSLDCVSIFALNLQDAQLTFNIMAEEDEHDEFSRSMPKNPLLKFGKKPRVVVPTNLLWYGEKENPKLYQEAVAKFEKIGCELVSLDIEPLLELARCLYEGPWVAERYVAVKDFFATNTPEKDLDPTVTKIIKGGEHYSAATCFQYEYKRQGIVKRVNKLLEGIDAIIVPTAPLNPTIEEVTNEPIKVNSCQGTYTNFVNLADMSALAIPAGFRNDGLPFGVTLLSHKFNDYALLDLASRYLKLDNLRTCGVSQKKVSTIHDELYLLPKSTPEETVKLAVVGAHLKGFELHWQLEKVDARFIESTTTSKNYKLYALPKTGPVAKPGLRRVESDGEHIAVETYSIPKEKFGQFIKFVPEPLGIGSVELKSGEWCKSFICEEFGYKQPGTVDITEFGGWKKYQEHLRASKKPFNSVLVANRGEIAVRIIKTLKKLGVKSIAVYSDPDKYAQHSLMADVAIPLHGTTAAETYINIEKVIKAAKESGAEAIIPGYGFLSENADFSDRCGKEGIVFVGPSGDAIRKLGLKHSAREIAEKAGVPLVPGSGLVKDAKEARAIAAKLEYPIMVKSTAGGGGIGLQKVDSEKDIERVFETVQHQGKSYFGDSGVFLERFVENARHVEIQMLGDGYGNAIAVGERDCSLQRRNQKIIEETPAPNLPEETRNKMRKAAESLGSSMKYKCAGTVEYIYDPKRDEFYFLEVNARLQVEHPITEMVTGLDLVEWMLLIAADTPPDFNQKIEVKGASMEARLYAENPVKGFMPSPGQLTEVKFPEWARIDSWVEKGTIVSAEYDPTLAKIIVHGKDRDDALKKLRQALNETVVYGCITNVDYLRSIANSKMFEEAAVATKVLDSYDYKPHAIEILQPGAYTTVQDYPGRRGYWHIGVPPSGCMDQYSFRVANKIVGNDAASPGIEITLNGPKLLFHQDCVVAVTGGKTKVEVNQVEVNQWEPINIKSGDKLDIGKLSTGCRAYLAIRGGVDVVEYLGSRSTFALGNLGGYNGRVLKLGDVLFLGQPDVTSCTLPGPISQPTPVPASLIPNYDNKVWKIGVTCGPHGSPDFFKAESVEEFFSSTWKVHYNSNRFGVRLIGPKPKWARKDGGEGGLHPSNTHDYVYSMGAINFTGDEPVILTCDGPSLGGFVCEAVVAESELWKVGQVKPGESIQFVPISYESAKNLKKQQNAAIENLSGDLPSLETVSLSAPENPILHQFKVSSNAPKVTYRQAGDRYILVEYGDNLLDLNLAYRIHKLDAMVKEYKPKGIFELSAGVRSVLVEYTDEITQKEALDTLVSYEKEIIFVNKWKVSSRIIKLPMAFEDKKTLDAVKRYQETIRSEAPWLPNNVDFIANINGITRTDVKDMLYTARFLVLGLGDVFLGAPCAVPLDPRHRLLGTKYNPSRTFTPNGTVGIGGNYMCIYTMESPGGYQLVGRTVPIWDKLSLGEHSPNTKPWLLSPFDQIEFYPVTEEEVDAFSEQMNAGKFKVDIVESVFDHGKYLEWIQENSKSIEEFQQNQGGEKLEEFNRLIQISNSELEKLGTKVQDDEKFDDNAELVYSEYSGRFWKSVVEVGDKVTAHQPLIVVEAMKTEMVVNAPRDGKVLKIYHKNGDMVEAGDLVVVLE

Target ORF information:

RefSeq Version	XM_708497.2
Organism	Candida albicans SC5314
Definition	Candida albicans SC5314 bifunctional urea carboxylase/allophanate hydrolase (DUR1,2), partial mRNA.

Target ORF information:

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

XM_708497.2

ORF Insert Sequence:

ATGTCATACT TAGGTTGGTC AGTAGAAGAT TGGAAAAAGT TTCATTACGA ATCAACACCA 
GATGAATCTT TTGAATTATT ATCCCAATTA TTAAAATCCC AAAAAGCTGC TCCAGAAGAT 
CCTGCTTGGA TATCCTTAGC TTCCATAGAG AATTTGGAAC ACCAATGGAA ATTTTTACAA 
TCAAAATCGA ATAAACGAGA TTTACCGTTA TACGGGGTCC CCATAGCAGT TAAAGATAAC 
ATAGATGCTA AAACATTTGA AACTACAGCA GCTTGTCCTT CATTTGCTTA CTCTCCGTCA 
AAAGATGCCA CTACAGTTAG ATTGTTAAGA GATGCCGGTG CCATAGTTAT TGGGAAAACC 
AATTTAGATC AATTTGCAAC AGGTTTAGTC GGTACAAGGT CTCCCTACGG AATAACTCCA 
AATACATTCA ATCCAAAGTA CGTCAGTGGT GGATCTTCAG CCGGATCTGC CTCGGTGGTT 
GCTAGAGGTA TTGTTCCAAT TGCATTAGGT ACCGATACTG CTGGATCAGG AAGAGTCCCC 
GCAGCATTGA ATAATCTTAT TGGATTGAAA CCAACAAAAG GTGTCTTTTC ATGTTCAGGT 
GTTGTTCCAG CATGTAAGTC ACTTGATTGT GTTTCGATAT TTGCATTGAA TTTGCAAGAT 
GCACAGCTTA CGTTTAATAT TATGGCAGAA GAAGATGAAC ATGACGAATT TTCAAGATCA 
ATGCCAAAAA ATCCATTATT GAAATTTGGC AAAAAACCTA GAGTTGTAGT ACCAACCAAT 
TTGTTATGGT ACGGCGAGAA AGAAAACCCT AAATTATACC AAGAAGCAGT TGCTAAATTT 
GAAAAAATCG GGTGTGAATT GGTATCTTTG GATATTGAAC CATTGCTAGA ATTAGCTAGA 
TGCTTATATG AAGGTCCATG GGTTGCTGAA CGTTATGTTG CTGTTAAAGA TTTCTTTGCC 
ACAAATACAC CGGAAAAGGA TTTGGATCCA ACAGTCACCA AAATTATTAA AGGTGGAGAA 
CATTATTCTG CAGCCACTTG TTTCCAATAT GAATACAAAA GACAGGGAAT TGTGAAGAGA 
GTCAACAAAT TGTTAGAAGG CATTGATGCT ATTATTGTAC CAACAGCCCC ATTGAATCCA 
ACAATCGAAG AAGTCACCAA CGAACCAATC AAAGTCAACT CATGTCAAGG TACTTATACC 
AACTTTGTCA ACTTGGCAGA TATGTCTGCA CTAGCTATCC CAGCAGGATT CAGAAATGAT 
GGATTACCCT TCGGTGTCAC ATTGTTATCA CACAAGTTCA ACGATTATGC ATTATTAGAC 
TTAGCCAGTC GTTACTTGAA ACTCGACAAT TTACGTACAT GTGGTGTTTC ACAAAAGAAA 
GTGTCTACCA TCCATGATGA ATTGTACTTA TTACCAAAAT CTACCCCCGA AGAAACTGTT 
AAATTGGCTG TTGTTGGAGC TCATCTTAAA GGATTTGAAT TACATTGGCA ATTGGAAAAA 
GTTGATGCTC GATTTATTGA ATCAACAACA ACTTCGAAAA ACTATAAATT ATATGCCTTG 
CCGAAGACAG GACCCGTTGC CAAACCTGGT TTGAGAAGAG TGGAATCCGA TGGTGAACAT 
ATAGCTGTTG AAACCTATAG TATTCCAAAA GAGAAATTTG GACAATTTAT CAAATTTGTT 
CCTGAACCAT TAGGTATTGG ATCGGTCGAA TTAAAATCAG GTGAATGGTG TAAATCTTTT 
ATCTGTGAAG AATTTGGTTA CAAACAACCT GGTACTGTTG ACATTACTGA ATTTGGCGGT 
TGGAAAAAGT ATCAAGAACA TTTGCGTGCC TCCAAAAAAC CATTCAATTC AGTTTTGGTT 
GCCAATAGAG GAGAAATTGC CGTTAGAATA ATCAAAACTT TGAAAAAATT GGGGGTAAAA 
TCTATTGCTG TCTATTCAGA TCCAGATAAG TATGCTCAAC ACTCATTAAT GGCAGATGTT 
GCAATTCCAT TGCATGGTAC AACAGCTGCT GAAACTTATA TCAACATTGA AAAAGTTATC 
AAAGCAGCCA AGGAGTCTGG TGCAGAAGCT ATCATCCCAG GTTATGGGTT CTTATCCGAA 
AATGCGGATT TCTCAGATCG TTGTGGTAAA GAAGGAATTG TGTTTGTTGG TCCATCTGGT 
GATGCCATTA GAAAATTGGG ATTAAAACAT TCAGCTAGAG AAATTGCCGA AAAAGCTGGA 
GTGCCGTTGG TTCCTGGTTC AGGTTTGGTG AAAGATGCCA AAGAAGCCAG AGCGATTGCT 
GCCAAATTGG AATATCCAAT TATGGTCAAA TCTACTGCAG GTGGTGGTGG TATTGGTTTA 
CAAAAAGTAG ATTCTGAAAA AGATATTGAA AGAGTTTTTG AAACCGTTCA ACATCAAGGA 
AAATCCTATT TCGGAGACTC AGGGGTATTT TTGGAAAGAT TTGTTGAAAA TGCCAGACAC 
GTTGAAATCC AAATGTTAGG TGATGGTTAC GGTAATGCCA TTGCTGTTGG TGAAAGAGAT 
TGTTCTTTAC AACGTAGAAA CCAAAAGATC ATTGAAGAGA CTCCTGCACC CAATTTACCA 
GAAGAAACCA GAAATAAAAT GAGAAAAGCA GCTGAATCAC TTGGTTCATC TATGAAATAT 
AAATGTGCCG GTACAGTGGA ATATATTTAC GATCCCAAGA GAGATGAATT CTACTTTTTA 
GAAGTAAATG CCAGATTACA AGTTGAACAT CCAATTACAG AAATGGTCAC TGGATTAGAT 
TTAGTTGAAT GGATGCTTTT GATAGCTGCA GACACCCCAC CTGATTTCAA CCAAAAAATT 
GAAGTCAAAG GAGCATCAAT GGAAGCTAGA TTATATGCCG AGAATCCAGT TAAAGGTTTC 
ATGCCATCAC CAGGTCAATT GACAGAAGTA AAATTCCCTG AATGGGCTAG AATCGATAGT 
TGGGTTGAAA AAGGTACTAT TGTTTCTGCT GAATATGACC CCACCTTAGC TAAAATCATT 
GTTCATGGTA AGGATAGAGA TGATGCCTTA AAGAAGTTAC GTCAAGCATT GAATGAAACT 
GTTGTTTATG GATGTATCAC CAATGTTGAC TATTTGAGAT CGATTGCTAA TTCGAAAATG 
TTTGAGGAAG CAGCTGTAGC CACCAAAGTT TTGGACTCTT ATGACTACAA GCCACATGCC 
ATTGAAATTT TACAACCAGG TGCTTACACT ACAGTACAAG ACTACCCCGG TAGAAGGGGC 
TACTGGCACA TTGGGGTTCC ACCATCAGGT TGTATGGATC AATATTCATT CAGAGTTGCT 
AATAAAATTG TTGGTAACGA TGCAGCATCT CCTGGTATTG AAATCACATT GAATGGACCA 
AAACTTTTGT TCCATCAAGA TTGTGTTGTT GCTGTCACTG GTGGTAAGAC TAAAGTTGAA 
GTTAACCAAG TTGAAGTTAA TCAATGGGAA CCAATTAACA TCAAAAGTGG AGATAAATTG 
GATATTGGTA AATTGTCCAC TGGTTGCAGA GCTTACTTGG CCATTAGAGG CGGTGTTGAT 
GTTGTTGAAT ATTTGGGTTC AAGATCAACT TTTGCATTAG GTAATTTGGG TGGTTACAAT 
GGTAGAGTCT TGAAATTGGG TGATGTTTTA TTTTTGGGAC AACCTGATGT TACAAGTTGT 
ACTTTACCAG GCCCCATTTC CCAACCAACT CCTGTTCCAG CATCATTAAT TCCAAATTAT 
GACAACAAAG TTTGGAAGAT TGGTGTTACC TGTGGTCCAC ATGGATCTCC AGATTTTTTT 
AAAGCTGAAT CGGTTGAGGA ATTTTTCTCT TCCACTTGGA AAGTGCATTA TAATTCCAAC 
AGATTTGGTG TTAGATTGAT TGGACCAAAA CCTAAATGGG CTAGAAAGGA TGGTGGCGAA 
GGTGGGTTAC ATCCATCAAA CACTCATGAT TATGTTTATT CCATGGGTGC TATCAATTTC 
ACTGGTGACG AACCAGTCAT TTTAACATGC GATGGCCCAT CCTTAGGTGG GTTTGTTTGT 
GAAGCAGTTG TTGCTGAATC TGAATTATGG AAAGTTGGTC AAGTCAAACC AGGTGAATCA 
ATTCAATTTG TCCCAATAAG TTATGAATCT GCTAAAAATT TGAAAAAACA ACAAAATGCT 
GCAATTGAAA ACTTATCTGG TGATTTGCCA TCTTTAGAAA CCGTTTCATT ATCAGCTCCA 
GAAAACCCAA TCTTGCATCA ATTCAAAGTT TCTTCAAATG CTCCAAAAGT AACCTATCGT 
CAAGCTGGTG ATAGATATAT TCTTGTTGAA TACGGAGACA ATCTTCTTGA TTTGAATTTG 
GCTTACAGAA TCCACAAATT AGATGCAATG GTCAAAGAAT ATAAACCTAA AGGTATTTTT 
GAATTATCTG CTGGTGTTAG ATCAGTGTTG GTTGAATATA CTGATGAAAT CACCCAAAAG 
GAAGCCTTGG ATACTTTAGT TTCTTATGAA AAGGAAATCA TATTTGTTAA CAAATGGAAA 
GTGAGTTCGA GAATTATTAA ATTACCAATG GCTTTTGAAG ACAAGAAAAC ATTGGATGCA 
GTCAAAAGAT ACCAAGAAAC CATTAGAAGT GAGGCACCAT GGTTACCAAA CAATGTTGAT 
TTTATTGCTA ACATTAATGG AATCACAAGA ACAGATGTTA AAGATATGTT GTATACTGCC 
AGATTTTTGG TTTTAGGTTT AGGGGACGTC TTCCTTGGGG CACCATGCGC CGTTCCATTA 
GACCCAAGAC ATAGATTATT GGGTACCAAA TATAATCCAT CAAGAACTTT TACTCCAAAT 
GGTACTGTTG GTATTGGTGG TAATTATATG TGTATTTATA CCATGGAATC ACCAGGTGGT 
TATCAATTAG TTGGAAGGAC AGTTCCAATT TGGGATAAAT TGAGTTTAGG TGAACACTCA 
CCAAACACTA AACCATGGTT ATTGAGTCCA TTCGATCAAA TTGAATTTTA TCCTGTTACT 
GAAGAAGAAG TTGATGCATT TTCTGAACAA ATGAATGCTG GTAAATTCAA AGTTGATATT 
GTTGAATCAG TTTTCGATCA TGGTAAATAT TTGGAATGGA TTCAAGAAAA CTCTAAATCA 
ATTGAGGAAT TCCAACAAAA CCAAGGAGGT GAGAAATTAG AAGAATTCAA TAGATTGATT 
CAAATCTCAA ACAGTGAATT GGAAAAACTG GGAACTAAAG TTCAAGATGA CGAAAAATTT 
GATGATAATG CTGAATTGGT GTATTCTGAA TATTCTGGTA GATTCTGGAA ATCAGTAGTT 
GAAGTTGGAG ATAAAGTTAC TGCTCATCAG CCATTGATTG TTGTTGAAGC AATGAAAACA 
GAAATGGTTG TTAATGCACC AAGAGATGGT AAGGTGCTTA AAATTTACCA CAAGAATGGG 
GATATGGTGG AGGCCGGTGA TTTAGTGGTT GTTTTAGAAT AA

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

PubMed

Assembly of a phased diploid Candida albicans genome facilitates allele-specific measurements and provides a simple model for repeat and indel structure.
Genome biology14(9)R97(2013)
Muzzey D,Schwartz K,Weissman JS,Sherlock G

Assembly of the Candida albicans genome into sixteen supercontigs aligned on the eight chromosomes.
Genome biology8(4)R52(2007)
van het Hoog M,Rast TJ,Martchenko M,Grindle S,Dignard D,Hogues H,Cuomo C,Berriman M,Scherer S,Magee BB,Whiteway M,Chibana H,Nantel A,Magee PT

The diploid genome sequence of Candida albicans.
Proceedings of the National Academy of Sciences of the United States of America101(19)7329-34(2004 May)
Jones T,Federspiel NA,Chibana H,Dungan J,Kalman S,Magee BB,Newport G,Thorstenson YR,Agabian N,Magee PT,Davis RW,Scherer S

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DUR1,2 cDNA ORF clone, Candida albicans SC5314

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