SRB9 cDNA ORF clone, Candida albicans SC5314

Gene
Clones
gRNAs

Summary

Gene Symbol	SRB9
Entrez Gene ID	3635845
Full Name	Srb9p
Synonyms	CaO19.1451
Gene Type	protein-coding
Organism	Candida albicans SC5314

mRNA and Protein(s)

mRNA	Protein	Name
XM_717408.2	XP_722501.1	Srb9p

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 SRB9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SRB9 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
OCg10253	XM_717408.2 Latest version!	Candida albicans SC5314 Srb9p (SRB9), 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)

SRB9 ( XM_717408.2 ) cDNA ORF clone, Candida albicans SC5314 -> XP_722501.1 Candida albicans SC5314 Srb9p (SRB9), partial mRNA.

Price & Availability↑

CloneID	OCg10253
Clone ID Related Accession (Same CDS sequence)	XM_717408.2
Accession Version	XM_717408.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4998bp) 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	Srb9p
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_032090). On Dec 8, 2016 this sequence version replaced XM_717408.1. ##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.

ATGGTAGGGG CAAACGCTTC ATCGATATCC ACTCAATATT ACAAATTGGC TCATTTGGGG 
TCCATAAGTT ATACCATTTA TACATCGTCA GATAATAATG ATCAAGCATT ACTAGAGTTG 
GAATTGACAA TCAGACACAA ATGGCCACAA ATCCTAGTGA CTTATTATAA CAAAAGTTTG 
TATTATTTTG TGTTTGGTCA CAACAAGGTC GATTCAGAAA CGATTGACTT GACTAAAGAA 
TTCCCACAAC TATCTACCAA ATATACCGAT ACTGTGAACG TTGATCAGTT CCCCAACCCT 
CACAAAAGCA CCAAAAATGA CGATAACTTG GCGTGGGCTA GCTTGAGTTT TTTGAAAGCG 
ACGAAAAAGA TGATATTATA CAACTTGTCC TTAAGTGGCG CAATAAAACT ATTTGGCAAT 
TACTGTGTCG CACCCACCGG TGATTCTGTG TATTCTATTC TTTGTATTGA TCCAATATTA 
TTCCAAAATG GTGATTTGGT GGTTTCTTGT GTTGAAAAAC CTTTCACACA ATTATTCAGC 
TCATCCGTTG CATACCCAAG AAACCTTGCA ATTGACACTA ACTTTGTCAT TTATTTGATT 
CCCAGTGGTA TTAGATGTCA CTTATTTGAT CCAACAAGTT TGAGAAATAA TTTGATTGAG 
AAGCCACAAA TCGAAAACGG TAAGCTATTA GAGTTATTGA AAATAACGAC AGGTGTTCAG 
TGTGATGAGT CTACTTTATG GGTAAAACTT ATACCGAACC TCAAACATTT GAACAACCAA 
ACATCGGCAA TTGGAAAATT TATTCATTCC GTGGAAAATA AGAAATTCAT TTTGTGGCCA 
TGGGATTTGT GTTTGCTACA GTTTGGAAAG TTTGAACCCG CCATAGAGGA GGAGGGATTG 
CTTGAATCGT CAGAATTAAA TAATCCACTA CACTTGATTT CCGACTTTCT TGACTTCCGC 
ATAGCACATA ATACTCAATT GCAACAACAG AGAGATAGTT TGCTGGATCA GCAACAAGGA 
GAAACAGTTA ACGTGCCCTT AAGTGCTGGT AGTGTACACG CTACTGGTGC AAATTCTTTT 
GGAAATGTCC CTGATATCTC AAAAGATGTA GACACCGTCG GTTTGAGCAC GACAACTCCT 
ATAGAAACGG ATTTATTCAA TTTGCAAAAC ACAGAAGAGT TTTTCAAAAA CGATAGTATT 
CATATGAATC TTGAAGACCA AATTCATAAA AAGGAAACTG AACCTGAAAA TGAAAGTGAA 
AATGATATGG AAATTGACGA TCTATTTGGT GGCGATGAGA GTGATGATAA CGATGATTTG 
GAAGAGGCTG GCAACGAAGA AGAAAAACCC ACACCTTCAA ACAATACTAT TGACAAAAAT 
GGCGTAATTG GTAATGCCTT GGAAGAGGCA TTTATTGCCG ATGCAACACC ATCTAAGGAA 
AATATAAATC TCGATTCTAA AATAATGCCA CCTGATTCAA CCAGCGAAGA AGCAGTCCCT 
GATAAAGAGA ATTTTAAACC CAAAGAGACA AAACCATCAT ACATTGACAT TTTGAAAGAT 
AAAATGACTA TTGAAAAGAT TGTTAACAGC CCGGATTATA AAGATCCTGG TGCCCCTCTT 
CCCGTTGTCC CGACTCCACT AGTTCTGTCT ACCGTTTCAC AATCAGCTGT GACAACGAAT 
CCACCTTCAG TAGGATCAGC GCCAGGACCA GCGCCAGGAC CAGCGCCAGG AACTGAGACA 
TTATACGAAG CAAACAATGC ATATGCACAG TCTTCACAGA TTCTGCAATT ACCCCAACAA 
AAGTCTGCTT TTTCTCCAAT TTTATTTAAT CCTATTATAA AAAGTGATAT AGACACCAAG 
TACGGAAAAG GAGGTAAATT TTATGTTGCA AAAGACAGTT CCACTAATGG AAACCTTGAC 
ATGAAGAATA GATCACTCAG AGCAACTAGT GTAAGTGGTA TGGAAATTCC ATTCTCTAGT 
GAGGACAAAA AACGGCTACA ACAAAATTTA GAAGTACTCG ACTCTTCTAC TACAAGTGAT 
AATGAGGGAG GAGAAGATAT AGAAGATGAC GATAATGACT ACGAAGATGA AGGCGATGAC 
GACGAAGAAG AAGAAGGGGA GGAAGAAGAA GAAGAAGAAA GTGATGAGGA TGAAATATCA 
GATATTGGTA AATCTACGCC TTTGAAACTT AACACTCAAA ACGAGTCAGT GCCACCCCAA 
CAAAGTAATT ATAATCCTGT CAATATCACT GATCTGGGAT CCAATACCAC CAATAACATT 
ACTGATAAAC AGGGTTATGA AAATACAGAA GGGTTTGGCA CGCCTTTCCC CAATCAAATA 
TCCAAATATT CTATAAAGCC TGAATCACCA TTCGCTAGTA ATGAATTGCA AAGTTCAGTT 
TCGCCCATGT ATTTTGACAC ATCACAGAGT CACCAATCAC CTCAATTGCA ACCATCCACT 
GGTACTTTAG AAGTTTTGAA AGCCAGCTCC TTAGAGTCTC CGTCTAAAAT CAGTGAATCC 
TCAAATTATT TGCCGCTAAT ATTAAGGAGC ATTAATGTCT CCACTATTCC AAGTCTGTAT 
TTGATGAACA ATTTAATAAG CAGTAAGTTG TTGCCTTCGT TTACCATAAG TGATGATGAC 
TTGGAAAATG ATCTAGATAT AACTAAAAGC AATGAAATGA TTGTCAAGTT GGGATTTTTG 
AAGGAATTTC TTGATTTCAT GTCTCCAAAT ATTATTTTTG ATTTAGGCTT GATGAAAAAC 
GACGAATCCG ATTATTATAT AAATGGCGTG AATGACTTGT TGTTGAATCT GGACCCAGGT 
ATATCGTCTG ATTGGATTTT GAATAGTTTG TCAAAAGTTT TTCCTTGCAC TTATCCAATG 
AAATTAATCG AGCTTCTTTA TGATTTTAAA AGTTTAGAAT TGGAAGATCA ACTAGATAGT 
CAATTGAATT TTTTGAATGA AATTGCCGAC GAAGAAGACT TTGTTGGACC AAAAGCATTA 
TACCGAAAAT TAAAGGCGTT GGAATGGGAT TCGTTTTCTT TGAATGAACT GAACAAAACC 
AGTTTTGAGA AGTATAAAAA TGTGATGGAA AAATTAAGTG CTGAAAACAC GGTCAGTGAT 
GATGACTATT TCAAGTTACC AATGGTGAAA ACTAGAATAT TGAAAAATGG CAATATTGTG 
AACTTGAACA ATATTGGTTT GAAATTTTGG AAATATTTAA ACTTTAGTCC TGTGAAAAAA 
CAGAAAGACT TTCAAATATT GTTGATTGCT GAAACTCATC GTAACACAGC TTCTTATGCA 
ACTGAGTTTT TAGACCAAAT CATTCAAAAC TATAAGGAAT GCAATTTTGG AACAATTTCG 
AAAGTGAATT TATCAACAGT AGAGACTCGT TCTGATTTGG AGCCAATTTC GGATGGATTG 
GTTCTAGTCC ACAAAGAGCA TGATCAACTG TACAATGATT TTTATATACA GACAAACAAG 
AAGTTGATTT CACTAGTTGA ATTGATAAAA TTGGATTTGA TTAATAAAAC AAACAATTTT 
GAATTTGGTA AACCATTGCT ATTGTTTTTC ATTGATTTCA ACGACAGTTC AAATTCAAAC 
GTGCAAGTGT GCAAAATCTT TAGAAATTTC AAGGTGGCAT TAACAACGCA TCAATTGCCA 
TTGGTGGATA TATTTACTAA AATTGTACCA TCATCTCTTT TAGTTAAGAA GGTGCATCAT 
GAAACTGCTT TGAAAGTGTT TAGCAATTAC AAACTAACAA AGATTTCTAT GAATTTATAC 
AACGAATGCC CTAATGATTT AGCTAACAAG TCCATTGTTA AGAATTTGTT CACTACAATT 
GTGAAAGATC CTCCTTCCAA AATACAGTTT AAATTCATGA ATAGCAGCTA TAGAGACAAT 
AGTTCAAATG ATGACATTTT TCTTCACCTA GCTTATGAAA GATCGATCGA TAACAGTTGG 
TTCGTGGCAT CTTGGTCGGA TCCATTGGGT CGGGTAGTTC ATGTCAAATC GTGGTACTGT 
TCTGATTCTG TCTCCAAATC TGAGAAATCA ACATACAGAG GTGACATAAT GGATATTATG 
AGTATTACAG ACGATATATG GAGCATATCC ACAGATTTAT TTAAAGTTTT AAACGACGAA 
CTAGGTTCAT TTGGAGGGAA GAAATTTTTG GTTTTGACCA GGATCAATAG CATCATACCC 
GATGTGGAAT TAGTTCATTG GAAACGATTG AGTCTGAAGC ATAAAGAAAT ATCACTTATA 
GTTGTATCTG TGCGTCAGAC TCCCAGAATA GTGGGTTCTA ATGAGTCTGA AGACTTAGGG 
CCAAAAAGCA ATGATTATGC TCCCACACCA ATGATACAAG ACAAGGATAT CTTTTTCGGG 
TTTAAGCAAA CATTTTCTAC ATCTAATACT TCATCGCCAA GTGCGTCAGG AGGGGCTCTT 
GTCACATCCC CCAACAGTTT GAGTTTGCAC TCCCCACAAC AATTTCTCAA TGCACCAGCA 
AACTTTTTAT CTCCTCAAGA TCTCATAGCT CCAACCTCAC TGGGCATTTC TGGCGCCAAA 
CCAGGCAGCA GTGGTATTGA CCCTGAGGTG GTATTAGAGA ATCAAGATAA CGAAGTATAT 
GGTGTGATAC CTAAAGTGCC ACTCCCTTCA TTTAATTCAC CCACAAGATT TTGTATGAAA 
ACAGGATACT TGATGATGCA AGTTAATCAG CCGTCAGAAG AGGAGTATAA GGATGACATT 
AAGAAAACTT ATCTAGTATA CGAAATCAAT CTTTTAAGTT GCTCAAACTA TTGGAATTTG 
GATGTTTTGA TGAAATTGAT AATGCTGCAG TACAAACAAA TGATTGCATT GAACGACATA 
CTCTGTATGA ATCCTATTGT TGGAGAACTG GACATTTTGG GAACTCATTC TAGAAATAAT 
GCCATAGTTC CGTGGCATAT AAATGCTGTA GGGAAATTAT TGGATTATTT AGTGCACATA 
TATGTAGATA AAGATTGA

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

RefSeq	XP_722501.1
CDS	1..4998
Translation	MVGANASSISTQYYKLAHLGSISYTIYTSSDNNDQALLELELTIRHKWPQILVTYYNKSLYYFVFGHNKVDSETIDLTKEFPQLSTKYTDTVNVDQFPNPHKSTKNDDNLAWASLSFLKATKKMILYNLSLSGAIKLFGNYCVAPTGDSVYSILCIDPILFQNGDLVVSCVEKPFTQLFSSSVAYPRNLAIDTNFVIYLIPSGIRCHLFDPTSLRNNLIEKPQIENGKLLELLKITTGVQCDESTLWVKLIPNLKHLNNQTSAIGKFIHSVENKKFILWPWDLCLLQFGKFEPAIEEEGLLESSELNNPLHLISDFLDFRIAHNTQLQQQRDSLLDQQQGETVNVPLSAGSVHATGANSFGNVPDISKDVDTVGLSTTTPIETDLFNLQNTEEFFKNDSIHMNLEDQIHKKETEPENESENDMEIDDLFGGDESDDNDDLEEAGNEEEKPTPSNNTIDKNGVIGNALEEAFIADATPSKENINLDSKIMPPDSTSEEAVPDKENFKPKETKPSYIDILKDKMTIEKIVNSPDYKDPGAPLPVVPTPLVLSTVSQSAVTTNPPSVGSAPGPAPGPAPGTETLYEANNAYAQSSQILQLPQQKSAFSPILFNPIIKSDIDTKYGKGGKFYVAKDSSTNGNLDMKNRSLRATSVSGMEIPFSSEDKKRLQQNLEVLDSSTTSDNEGGEDIEDDDNDYEDEGDDDEEEEGEEEEEEESDEDEISDIGKSTPLKLNTQNESVPPQQSNYNPVNITDLGSNTTNNITDKQGYENTEGFGTPFPNQISKYSIKPESPFASNELQSSVSPMYFDTSQSHQSPQLQPSTGTLEVLKASSLESPSKISESSNYLPLILRSINVSTIPSLYLMNNLISSKLLPSFTISDDDLENDLDITKSNEMIVKLGFLKEFLDFMSPNIIFDLGLMKNDESDYYINGVNDLLLNLDPGISSDWILNSLSKVFPCTYPMKLIELLYDFKSLELEDQLDSQLNFLNEIADEEDFVGPKALYRKLKALEWDSFSLNELNKTSFEKYKNVMEKLSAENTVSDDDYFKLPMVKTRILKNGNIVNLNNIGLKFWKYLNFSPVKKQKDFQILLIAETHRNTASYATEFLDQIIQNYKECNFGTISKVNLSTVETRSDLEPISDGLVLVHKEHDQLYNDFYIQTNKKLISLVELIKLDLINKTNNFEFGKPLLLFFIDFNDSSNSNVQVCKIFRNFKVALTTHQLPLVDIFTKIVPSSLLVKKVHHETALKVFSNYKLTKISMNLYNECPNDLANKSIVKNLFTTIVKDPPSKIQFKFMNSSYRDNSSNDDIFLHLAYERSIDNSWFVASWSDPLGRVVHVKSWYCSDSVSKSEKSTYRGDIMDIMSITDDIWSISTDLFKVLNDELGSFGGKKFLVLTRINSIIPDVELVHWKRLSLKHKEISLIVVSVRQTPRIVGSNESEDLGPKSNDYAPTPMIQDKDIFFGFKQTFSTSNTSSPSASGGALVTSPNSLSLHSPQQFLNAPANFLSPQDLIAPTSLGISGAKPGSSGIDPEVVLENQDNEVYGVIPKVPLPSFNSPTRFCMKTGYLMMQVNQPSEEEYKDDIKKTYLVYEINLLSCSNYWNLDVLMKLIMLQYKQMIALNDILCMNPIVGELDILGTHSRNNAIVPWHINAVGKLLDYLVHIYVDKD

Target ORF information:

RefSeq Version	XM_717408.2
Organism	Candida albicans SC5314
Definition	Candida albicans SC5314 Srb9p (SRB9), partial mRNA.

Target ORF information:

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

XM_717408.2

ORF Insert Sequence:

ATGGTAGGGG CAAACGCTTC ATCGATATCC ACTCAATATT ACAAATTGGC TCATTTGGGG 
TCCATAAGTT ATACCATTTA TACATCGTCA GATAATAATG ATCAAGCATT ACTAGAGTTG 
GAATTGACAA TCAGACACAA ATGGCCACAA ATCCTAGTGA CTTATTATAA CAAAAGTTTG 
TATTATTTTG TGTTTGGTCA CAACAAGGTC GATTCAGAAA CGATTGACTT GACTAAAGAA 
TTCCCACAAC TATCTACCAA ATATACCGAT ACTGTGAACG TTGATCAGTT CCCCAACCCT 
CACAAAAGCA CCAAAAATGA CGATAACTTG GCGTGGGCTA GCTTGAGTTT TTTGAAAGCG 
ACGAAAAAGA TGATATTATA CAACTTGTCC TTAAGTGGCG CAATAAAACT ATTTGGCAAT 
TACTGTGTCG CACCCACCGG TGATTCTGTG TATTCTATTC TTTGTATTGA TCCAATATTA 
TTCCAAAATG GTGATTTGGT GGTTTCTTGT GTTGAAAAAC CTTTCACACA ATTATTCAGC 
TCATCCGTTG CATACCCAAG AAACCTTGCA ATTGACACTA ACTTTGTCAT TTATTTGATT 
CCCAGTGGTA TTAGATGTCA CTTATTTGAT CCAACAAGTT TGAGAAATAA TTTGATTGAG 
AAGCCACAAA TCGAAAACGG TAAGCTATTA GAGTTATTGA AAATAACGAC AGGTGTTCAG 
TGTGATGAGT CTACTTTATG GGTAAAACTT ATACCGAACC TCAAACATTT GAACAACCAA 
ACATCGGCAA TTGGAAAATT TATTCATTCC GTGGAAAATA AGAAATTCAT TTTGTGGCCA 
TGGGATTTGT GTTTGCTACA GTTTGGAAAG TTTGAACCCG CCATAGAGGA GGAGGGATTG 
CTTGAATCGT CAGAATTAAA TAATCCACTA CACTTGATTT CCGACTTTCT TGACTTCCGC 
ATAGCACATA ATACTCAATT GCAACAACAG AGAGATAGTT TGCTGGATCA GCAACAAGGA 
GAAACAGTTA ACGTGCCCTT AAGTGCTGGT AGTGTACACG CTACTGGTGC AAATTCTTTT 
GGAAATGTCC CTGATATCTC AAAAGATGTA GACACCGTCG GTTTGAGCAC GACAACTCCT 
ATAGAAACGG ATTTATTCAA TTTGCAAAAC ACAGAAGAGT TTTTCAAAAA CGATAGTATT 
CATATGAATC TTGAAGACCA AATTCATAAA AAGGAAACTG AACCTGAAAA TGAAAGTGAA 
AATGATATGG AAATTGACGA TCTATTTGGT GGCGATGAGA GTGATGATAA CGATGATTTG 
GAAGAGGCTG GCAACGAAGA AGAAAAACCC ACACCTTCAA ACAATACTAT TGACAAAAAT 
GGCGTAATTG GTAATGCCTT GGAAGAGGCA TTTATTGCCG ATGCAACACC ATCTAAGGAA 
AATATAAATC TCGATTCTAA AATAATGCCA CCTGATTCAA CCAGCGAAGA AGCAGTCCCT 
GATAAAGAGA ATTTTAAACC CAAAGAGACA AAACCATCAT ACATTGACAT TTTGAAAGAT 
AAAATGACTA TTGAAAAGAT TGTTAACAGC CCGGATTATA AAGATCCTGG TGCCCCTCTT 
CCCGTTGTCC CGACTCCACT AGTTCTGTCT ACCGTTTCAC AATCAGCTGT GACAACGAAT 
CCACCTTCAG TAGGATCAGC GCCAGGACCA GCGCCAGGAC CAGCGCCAGG AACTGAGACA 
TTATACGAAG CAAACAATGC ATATGCACAG TCTTCACAGA TTCTGCAATT ACCCCAACAA 
AAGTCTGCTT TTTCTCCAAT TTTATTTAAT CCTATTATAA AAAGTGATAT AGACACCAAG 
TACGGAAAAG GAGGTAAATT TTATGTTGCA AAAGACAGTT CCACTAATGG AAACCTTGAC 
ATGAAGAATA GATCACTCAG AGCAACTAGT GTAAGTGGTA TGGAAATTCC ATTCTCTAGT 
GAGGACAAAA AACGGCTACA ACAAAATTTA GAAGTACTCG ACTCTTCTAC TACAAGTGAT 
AATGAGGGAG GAGAAGATAT AGAAGATGAC GATAATGACT ACGAAGATGA AGGCGATGAC 
GACGAAGAAG AAGAAGGGGA GGAAGAAGAA GAAGAAGAAA GTGATGAGGA TGAAATATCA 
GATATTGGTA AATCTACGCC TTTGAAACTT AACACTCAAA ACGAGTCAGT GCCACCCCAA 
CAAAGTAATT ATAATCCTGT CAATATCACT GATCTGGGAT CCAATACCAC CAATAACATT 
ACTGATAAAC AGGGTTATGA AAATACAGAA GGGTTTGGCA CGCCTTTCCC CAATCAAATA 
TCCAAATATT CTATAAAGCC TGAATCACCA TTCGCTAGTA ATGAATTGCA AAGTTCAGTT 
TCGCCCATGT ATTTTGACAC ATCACAGAGT CACCAATCAC CTCAATTGCA ACCATCCACT 
GGTACTTTAG AAGTTTTGAA AGCCAGCTCC TTAGAGTCTC CGTCTAAAAT CAGTGAATCC 
TCAAATTATT TGCCGCTAAT ATTAAGGAGC ATTAATGTCT CCACTATTCC AAGTCTGTAT 
TTGATGAACA ATTTAATAAG CAGTAAGTTG TTGCCTTCGT TTACCATAAG TGATGATGAC 
TTGGAAAATG ATCTAGATAT AACTAAAAGC AATGAAATGA TTGTCAAGTT GGGATTTTTG 
AAGGAATTTC TTGATTTCAT GTCTCCAAAT ATTATTTTTG ATTTAGGCTT GATGAAAAAC 
GACGAATCCG ATTATTATAT AAATGGCGTG AATGACTTGT TGTTGAATCT GGACCCAGGT 
ATATCGTCTG ATTGGATTTT GAATAGTTTG TCAAAAGTTT TTCCTTGCAC TTATCCAATG 
AAATTAATCG AGCTTCTTTA TGATTTTAAA AGTTTAGAAT TGGAAGATCA ACTAGATAGT 
CAATTGAATT TTTTGAATGA AATTGCCGAC GAAGAAGACT TTGTTGGACC AAAAGCATTA 
TACCGAAAAT TAAAGGCGTT GGAATGGGAT TCGTTTTCTT TGAATGAACT GAACAAAACC 
AGTTTTGAGA AGTATAAAAA TGTGATGGAA AAATTAAGTG CTGAAAACAC GGTCAGTGAT 
GATGACTATT TCAAGTTACC AATGGTGAAA ACTAGAATAT TGAAAAATGG CAATATTGTG 
AACTTGAACA ATATTGGTTT GAAATTTTGG AAATATTTAA ACTTTAGTCC TGTGAAAAAA 
CAGAAAGACT TTCAAATATT GTTGATTGCT GAAACTCATC GTAACACAGC TTCTTATGCA 
ACTGAGTTTT TAGACCAAAT CATTCAAAAC TATAAGGAAT GCAATTTTGG AACAATTTCG 
AAAGTGAATT TATCAACAGT AGAGACTCGT TCTGATTTGG AGCCAATTTC GGATGGATTG 
GTTCTAGTCC ACAAAGAGCA TGATCAACTG TACAATGATT TTTATATACA GACAAACAAG 
AAGTTGATTT CACTAGTTGA ATTGATAAAA TTGGATTTGA TTAATAAAAC AAACAATTTT 
GAATTTGGTA AACCATTGCT ATTGTTTTTC ATTGATTTCA ACGACAGTTC AAATTCAAAC 
GTGCAAGTGT GCAAAATCTT TAGAAATTTC AAGGTGGCAT TAACAACGCA TCAATTGCCA 
TTGGTGGATA TATTTACTAA AATTGTACCA TCATCTCTTT TAGTTAAGAA GGTGCATCAT 
GAAACTGCTT TGAAAGTGTT TAGCAATTAC AAACTAACAA AGATTTCTAT GAATTTATAC 
AACGAATGCC CTAATGATTT AGCTAACAAG TCCATTGTTA AGAATTTGTT CACTACAATT 
GTGAAAGATC CTCCTTCCAA AATACAGTTT AAATTCATGA ATAGCAGCTA TAGAGACAAT 
AGTTCAAATG ATGACATTTT TCTTCACCTA GCTTATGAAA GATCGATCGA TAACAGTTGG 
TTCGTGGCAT CTTGGTCGGA TCCATTGGGT CGGGTAGTTC ATGTCAAATC GTGGTACTGT 
TCTGATTCTG TCTCCAAATC TGAGAAATCA ACATACAGAG GTGACATAAT GGATATTATG 
AGTATTACAG ACGATATATG GAGCATATCC ACAGATTTAT TTAAAGTTTT AAACGACGAA 
CTAGGTTCAT TTGGAGGGAA GAAATTTTTG GTTTTGACCA GGATCAATAG CATCATACCC 
GATGTGGAAT TAGTTCATTG GAAACGATTG AGTCTGAAGC ATAAAGAAAT ATCACTTATA 
GTTGTATCTG TGCGTCAGAC TCCCAGAATA GTGGGTTCTA ATGAGTCTGA AGACTTAGGG 
CCAAAAAGCA ATGATTATGC TCCCACACCA ATGATACAAG ACAAGGATAT CTTTTTCGGG 
TTTAAGCAAA CATTTTCTAC ATCTAATACT TCATCGCCAA GTGCGTCAGG AGGGGCTCTT 
GTCACATCCC CCAACAGTTT GAGTTTGCAC TCCCCACAAC AATTTCTCAA TGCACCAGCA 
AACTTTTTAT CTCCTCAAGA TCTCATAGCT CCAACCTCAC TGGGCATTTC TGGCGCCAAA 
CCAGGCAGCA GTGGTATTGA CCCTGAGGTG GTATTAGAGA ATCAAGATAA CGAAGTATAT 
GGTGTGATAC CTAAAGTGCC ACTCCCTTCA TTTAATTCAC CCACAAGATT TTGTATGAAA 
ACAGGATACT TGATGATGCA AGTTAATCAG CCGTCAGAAG AGGAGTATAA GGATGACATT 
AAGAAAACTT ATCTAGTATA CGAAATCAAT CTTTTAAGTT GCTCAAACTA TTGGAATTTG 
GATGTTTTGA TGAAATTGAT AATGCTGCAG TACAAACAAA TGATTGCATT GAACGACATA 
CTCTGTATGA ATCCTATTGT TGGAGAACTG GACATTTTGG GAACTCATTC TAGAAATAAT 
GCCATAGTTC CGTGGCATAT AAATGCTGTA GGGAAATTAT TGGATTATTT AGTGCACATA 
TATGTAGATA AAGATTGA

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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SRB9 cDNA ORF clone, Candida albicans SC5314

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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