ATG26 cDNA ORF clone, Candida dubliniensis CD36

Gene
Clones
gRNAs

Summary

Gene Symbol	ATG26
Entrez Gene ID	8049697
Full Name	UDP-glycosyltransferase, putative
Gene Type	protein-coding
Organism	Candida dubliniensis CD36

mRNA and Protein(s)

mRNA	Protein	Name
XM_002421745.1	XP_002421790.1	UDP-glycosyltransferase, 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 ATG26 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATG26 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
OCr05095	XM_002421745.1 Latest version!	Candida dubliniensis CD36 UDP-glycosyltransferase, putative (ATG26), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

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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)

ATG26 ( XM_002421745.1 ) cDNA ORF clone, Candida dubliniensis CD36 -> XP_002421790.1 Candida dubliniensis CD36 UDP-glycosyltransferase, putative (ATG26), partial mRNA.

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CloneID	OCr05095
Clone ID Related Accession (Same CDS sequence)	XM_002421745.1
Accession Version	XM_002421745.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4557bp) 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	UDP-glycosyltransferase, 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_012867). COMPLETENESS: incomplete on both ends.

ATGTCATTTT ACAAAAAAGT AACTAAGGGT TTAGTCACAC CTTTACAAGG ACCAATAAAC 
CTTTTCAGCG GTTCACCCAA TGTCAGTGGC GACGAAGGAA CAAATACAGA TAATGAGAAT 
CCTGATCATA AAACAACTTA TCGTTCCTTA TCAGGACGAG TGAACCATGA TGATGATGAC 
GAAGATGTTG CCAAATTAGA AGATATAGTT GGGTTTTTCA CGGGGTTATT GGATACTACG 
ACACTTTGTG CTGGATTAGG AAGTTTGAAC AACTTGAAAA AGCATTACTT GGATGAATTT 
ATCAAGAAAA GTGCGTTGAA TCCATTGAGA CCACAAAATT ATGGACCAGA AACGAACAGT 
AAACTCAACA ATAATTCCAT TGAAGAATTA CTAAATAATG GTGACGCGAG TTTGGAAAAA 
GTCCGAAAAA TGAGTTTATA TGATTTTGAT GAACATACCT CAGATTCAGA AGAGGAAGAT 
TCAGCTGATG AGGAAGAGGA ACTGATAGCA GAAAATTTGA AACCAGGAAA AAGCGAAAAA 
GTCAAGAATC ACGTTAAGGG CTCGGGAAAT ACGACTGCTG CTGCCACCTT AGTCGCTACT 
GGTATAACGC CAACGACAAC AACAACAACA ACAGCTACCC CAACTCCAAC ACCAACAAGC 
TCAGTCGAGA CAGCACTAAC AGATGTAACA GAACCAATAG GTAAAGTCAT CACAGAGATT 
CCCGAAGAGC AACTACAGGG CCTCAATCCA TTACAAAAAT CTGTTGTGAA AAATTTGGAT 
CCTCATCACA TAAGAGAAGG AGTGTTAATC AAAGTTAAAA ATTCAGAGAC TCCTCTAAAG 
AATAATCGCC AGGAACTACT AGAAAAGATT CAGTTACGAT TAAAAATTGC TGATAAATTG 
CAAAGAGTTT TCAATTTAAG TGATGACGAT ACGTTTTACG GAAATTTCAG TGCTTGGCTT 
ATAAAAGACG TATTGCTACA AGGACACGTG TATCTTACAA AAGATGCGCT ACTTTATTTT 
GCATTCTTAC CCAAAAGGTT CAGTCTTGAG AATTCATCAG AAGTGTTAGA CGAGGATAAT 
TCTTCAAGTA TTGTTTACTC AGGAAACTTG GGACTCAAAA GTGCAAAGTA TGGCGAGGTT 
GTTCTCAATA CTGTTCTCCA ACACAGATAT TGGGCTGTTC TAAGAGCTGA AACTTTGAGT 
ATTTATTCAT CATCGACTAA TTTGTATTTC CCTGTGTTGG TAATTGATAT TAAGAAGTGC 
TTATACGCCG AAGTTATTGA TAAAGAAAAA TTTAACCGAG AGGCAATTTC ACCAGTGAAC 
CGTGGTACAT ATAGTCCTAA TGGTGGATTA TCAGGTACTG CAACTCCAAG AACATCAACA 
TTGGAAAATA CGGCTTCAGA ACTTAATAGC ATGCTTTCTG GCGACTCATA CAGTCCAACC 
GAAGACAACG TCGAAACAAC AGCAACGACT GTGTGGTTTA AATTGGTTAC GAAAAAGAAA 
ACCTACAAAT TTAGTTGCGA TAGCTCATTT TCAGCCAGAC AATGGTGTAA CAACATCACC 
AAATTGATTT TCCAGCACAA CAATGCCAAT TCCAACGGTG AAGTTTTAAT TAAAATCCCA 
ATTTCCAAAA TAATTGAGTA TAACAAAAGA GCATTGTTTA GCGAGGAAGA AGAAGAAGAG 
AAGAATTTGG ACGCAGCAAT GAACGATATA CCGTTAAATG TAACAATAAA ATACTTGGGT 
GATAACGAAA ACGAACGAAA GAGAGATAAA TTGAAAAGAA AATACAAAGG CGAAGAGTCT 
ACAACTGAGG AAGTTCACTT TTTATTTCCC AAAAGTGGTA TTGAGTTTTT TGAAACGTTT 
GATAACTTGA TGAATCCTGT TGTCCTGGAC AATGACAACC AATCATCAAG GTCATCTATC 
ACGAGTACCA ATTTTTCCGA AAAGGCGATA TCCACTTTGA GTAAATCACC GAACCATTTG 
GTGCAGACAG TGCTTGACTT TAACAAGCCC GTCGATGACG ATATTTCACC TTTTAAGAAG 
TTGGGGACTA CAATAACATC ACCAACAAGA ATTTTTAAGG CTACTATCAC ATCACCAGAA 
ATGACTAGCA TTGATGCAAC TAGCTTGAGA GAGAGCTTTG ATGGTGACCG TCTTCACCTC 
CCCAGAGAGA TGTCCGAGAG AGCATTGAAG AATTTGGAGG TTTCATTTGT AACTAGTCTC 
AAGAAATTGG AAGATGCGTC AAAGAGGTAC GAGAAACCAC ATATGGACTA TAACCAGACA 
AATCTGGCTT CGATATTATC TGATCCGTCA GAAGTGAAAA AACAATCGAA AACAGCTATA 
CTGAAGAGTA TCAAGGCTTT ATATAGTGTT GGGACACATT GGTCAGCAAC CCCGAATCAT 
TACTTTGAAC TAGGCAAGTA TTATGTTAGC AAAGTGCAGG ATAGAGACTC GTCTCAAAGA 
AACTTTCAAT CTCATTTTTC TACAAATTCG AAATTGCTTG CATCCTATTA TGGCCATTTA 
TTGAGAACAG TTCCAGTATA TGGTAAAATA TATGTATCTG ACACTGATGT CTGTTTCAGA 
AGTTTATTGC CTGGAGTATC CACGAAGATG GTGTTACCAA TGACTGATAT TGAAGAGGTA 
AGAGCTTCAC GGGGTTCGAG ATTGACGTAT CATGGATTAA GGCTTATTGC ACGAGGAAGC 
GAAGAGTTGG ATCTTGAATT TGGCTCTTCC AAATCGAGAG ATGATTTCCA AAAAGTTGTT 
CTTAGTGTTT TGGAAAAATT GCATTCGAAG GAAGGGTTTA GACCCGAACC GTATCAATGG 
GGTAGTAATT TTGAAGTTGA ATTATACAAG ACAAGAATGG AATACAGTGA TTCTGAAAAT 
AGAGAAATTC AACGATATGA TAATCTGATT GATATCAAAT TTGCAGAAAA GAGAATTGAA 
ATGGCGAGAG TGAGAATGTT TGAAGACAGA TTAATGGCTG CTTCAGGGTT GGACGTACCC 
ATTATATTGG AGGATTCTCC TTTTTTCAAA ACAGAATTGC GACCATCTAC TTCTTATAAT 
GTCACGTTAT TAACTATTGG ATCAAGAGGT GATGTCCAAC CATATATTGC ATTGGGTATA 
GGATTAGTGA AAGAAGGTCA TAATGTCACC ATTGCCACTC ATGCAGAATT TGGTGACTGG 
ATAAAAACTT TTGGGTTGGG GTTCAAAGAG ATTGCTGGGG ATCCAGCCGA GTTGATGTCT 
TTTATGGTAA CCCATAACTC TATGTCCGTG GGGTTTTTGA AAAATGCCCA ACAAAAGTTT 
AGGTCTTGGA TCTCAAAGTT GTTGACTACA AGTTGGGAAG CCTGTCAAGG TTCTGATATT 
TTGATTGAAA GTCCTTCTGC TATGAGTGGG ATTCATATTG CTGAAGCATT AGGGATACCA 
TATTTCAGAG CTTTTACCAT GCCCTGGACA CGAACTAGAG CTTATCCACA TGCATTCTTT 
GTACCAGATC AAAAGAAAGG AGGCTCATAC AATTACTTAA CTCACGTTTT ATTTGAGAAT 
ATATTTTGGA AAGGTATTTC TGGACAGGTT AATAAATGGA GAGTTGAGGA ATTAGATTTA 
CCGAAGACCA ACTTATACAG GTTGCAACAG ACAAAAGTTC CCTTTTTGTA TAACGTCTCA 
CCCGCCATAT TACCCCCCTC TGTCGATTTC CCAGATTGGA TTAAAGTAAC AGGATATTGG 
TTTCTAGATG AAGGTTCTGG AGATTACAAA CCACCCGAAG AACTTGTCCA ATTTATGAAA 
AAAGCATCAC GAGACAAAAA GAAGATTGTT TACATCGGAT TTGGTTCTAT TGTAGTGAAA 
GATGCAAAAT CTTTAACCAA GGCTGTGGTG TCTGCCGTGA GGAGAGCCGA TGTTCGTTGT 
ATTTTGAATA AGGGTTGGTC CGACAGGTTG GACCATAAAG ATAAAAACGA AGTTGAAGTT 
AGCTTGCCAC CGGAAATCTA CAATTCTGGA ACTATACCCC ATGATTGGTT GTTTCCACGT 
ATTGATGCTG CTGTCCATCA TGGAGGCTCC GGGACGACCG GTGCTACCAT GAGAGCCGGG 
ATACCAACCA TTATTAAACC ATTCTTTGGA GATCAGTTTT TCTATGCGAC GAGAATCGAA 
GATTTGGGTG CTGGTATTGC ATTAAAAAAA TTGACAGCCA GAACTTTGGC AGATGCTCTT 
ATAAAGGCTA CACACGATTT GAAAATCATA GATAAAGCAA AGAGAGTTAG TCAACAAATA 
AAACACGAAC ATGGAGTGCT TTCCGCAATA GAATCAATTT ATTCAGAATT AGAGTACTCG 
AGAAATTTGA TATTGATCAA AGATATTCAT AATCAGAATT ACAAACGTCA TCATCCAGTA 
CCTTCGGGTG TTCAAACTCC TGCTTATGAC ACTGACAGCG ATGATTATGT TGAAGAAGAT 
GATGATTTCG ATGAAGACGA TGATTCTGAT GAAGAGGAAG GAGATAAAGA GAATTTGCAG 
GATGATTATG TTGGAAATAG GGTCAATCTC AGCCCCAAGG AAACGTTGTC CAACTAG

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

RefSeq	XP_002421790.1
CDS	1..4557
Translation	MSFYKKVTKGLVTPLQGPINLFSGSPNVSGDEGTNTDNENPDHKTTYRSLSGRVNHDDDDEDVAKLEDIVGFFTGLLDTTTLCAGLGSLNNLKKHYLDEFIKKSALNPLRPQNYGPETNSKLNNNSIEELLNNGDASLEKVRKMSLYDFDEHTSDSEEEDSADEEEELIAENLKPGKSEKVKNHVKGSGNTTAAATLVATGITPTTTTTTTATPTPTPTSSVETALTDVTEPIGKVITEIPEEQLQGLNPLQKSVVKNLDPHHIREGVLIKVKNSETPLKNNRQELLEKIQLRLKIADKLQRVFNLSDDDTFYGNFSAWLIKDVLLQGHVYLTKDALLYFAFLPKRFSLENSSEVLDEDNSSSIVYSGNLGLKSAKYGEVVLNTVLQHRYWAVLRAETLSIYSSSTNLYFPVLVIDIKKCLYAEVIDKEKFNREAISPVNRGTYSPNGGLSGTATPRTSTLENTASELNSMLSGDSYSPTEDNVETTATTVWFKLVTKKKTYKFSCDSSFSARQWCNNITKLIFQHNNANSNGEVLIKIPISKIIEYNKRALFSEEEEEEKNLDAAMNDIPLNVTIKYLGDNENERKRDKLKRKYKGEESTTEEVHFLFPKSGIEFFETFDNLMNPVVLDNDNQSSRSSITSTNFSEKAISTLSKSPNHLVQTVLDFNKPVDDDISPFKKLGTTITSPTRIFKATITSPEMTSIDATSLRESFDGDRLHLPREMSERALKNLEVSFVTSLKKLEDASKRYEKPHMDYNQTNLASILSDPSEVKKQSKTAILKSIKALYSVGTHWSATPNHYFELGKYYVSKVQDRDSSQRNFQSHFSTNSKLLASYYGHLLRTVPVYGKIYVSDTDVCFRSLLPGVSTKMVLPMTDIEEVRASRGSRLTYHGLRLIARGSEELDLEFGSSKSRDDFQKVVLSVLEKLHSKEGFRPEPYQWGSNFEVELYKTRMEYSDSENREIQRYDNLIDIKFAEKRIEMARVRMFEDRLMAASGLDVPIILEDSPFFKTELRPSTSYNVTLLTIGSRGDVQPYIALGIGLVKEGHNVTIATHAEFGDWIKTFGLGFKEIAGDPAELMSFMVTHNSMSVGFLKNAQQKFRSWISKLLTTSWEACQGSDILIESPSAMSGIHIAEALGIPYFRAFTMPWTRTRAYPHAFFVPDQKKGGSYNYLTHVLFENIFWKGISGQVNKWRVEELDLPKTNLYRLQQTKVPFLYNVSPAILPPSVDFPDWIKVTGYWFLDEGSGDYKPPEELVQFMKKASRDKKKIVYIGFGSIVVKDAKSLTKAVVSAVRRADVRCILNKGWSDRLDHKDKNEVEVSLPPEIYNSGTIPHDWLFPRIDAAVHHGGSGTTGATMRAGIPTIIKPFFGDQFFYATRIEDLGAGIALKKLTARTLADALIKATHDLKIIDKAKRVSQQIKHEHGVLSAIESIYSELEYSRNLILIKDIHNQNYKRHHPVPSGVQTPAYDTDSDDYVEEDDDFDEDDDSDEEEGDKENLQDDYVGNRVNLSPKETLSN

Target ORF information:

RefSeq Version	XM_002421745.1
Organism	Candida dubliniensis CD36
Definition	Candida dubliniensis CD36 UDP-glycosyltransferase, putative (ATG26), partial mRNA.

Target ORF information:

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

XM_002421745.1

ORF Insert Sequence:

ATGTCATTTT ACAAAAAAGT AACTAAGGGT TTAGTCACAC CTTTACAAGG ACCAATAAAC 
CTTTTCAGCG GTTCACCCAA TGTCAGTGGC GACGAAGGAA CAAATACAGA TAATGAGAAT 
CCTGATCATA AAACAACTTA TCGTTCCTTA TCAGGACGAG TGAACCATGA TGATGATGAC 
GAAGATGTTG CCAAATTAGA AGATATAGTT GGGTTTTTCA CGGGGTTATT GGATACTACG 
ACACTTTGTG CTGGATTAGG AAGTTTGAAC AACTTGAAAA AGCATTACTT GGATGAATTT 
ATCAAGAAAA GTGCGTTGAA TCCATTGAGA CCACAAAATT ATGGACCAGA AACGAACAGT 
AAACTCAACA ATAATTCCAT TGAAGAATTA CTAAATAATG GTGACGCGAG TTTGGAAAAA 
GTCCGAAAAA TGAGTTTATA TGATTTTGAT GAACATACCT CAGATTCAGA AGAGGAAGAT 
TCAGCTGATG AGGAAGAGGA ACTGATAGCA GAAAATTTGA AACCAGGAAA AAGCGAAAAA 
GTCAAGAATC ACGTTAAGGG CTCGGGAAAT ACGACTGCTG CTGCCACCTT AGTCGCTACT 
GGTATAACGC CAACGACAAC AACAACAACA ACAGCTACCC CAACTCCAAC ACCAACAAGC 
TCAGTCGAGA CAGCACTAAC AGATGTAACA GAACCAATAG GTAAAGTCAT CACAGAGATT 
CCCGAAGAGC AACTACAGGG CCTCAATCCA TTACAAAAAT CTGTTGTGAA AAATTTGGAT 
CCTCATCACA TAAGAGAAGG AGTGTTAATC AAAGTTAAAA ATTCAGAGAC TCCTCTAAAG 
AATAATCGCC AGGAACTACT AGAAAAGATT CAGTTACGAT TAAAAATTGC TGATAAATTG 
CAAAGAGTTT TCAATTTAAG TGATGACGAT ACGTTTTACG GAAATTTCAG TGCTTGGCTT 
ATAAAAGACG TATTGCTACA AGGACACGTG TATCTTACAA AAGATGCGCT ACTTTATTTT 
GCATTCTTAC CCAAAAGGTT CAGTCTTGAG AATTCATCAG AAGTGTTAGA CGAGGATAAT 
TCTTCAAGTA TTGTTTACTC AGGAAACTTG GGACTCAAAA GTGCAAAGTA TGGCGAGGTT 
GTTCTCAATA CTGTTCTCCA ACACAGATAT TGGGCTGTTC TAAGAGCTGA AACTTTGAGT 
ATTTATTCAT CATCGACTAA TTTGTATTTC CCTGTGTTGG TAATTGATAT TAAGAAGTGC 
TTATACGCCG AAGTTATTGA TAAAGAAAAA TTTAACCGAG AGGCAATTTC ACCAGTGAAC 
CGTGGTACAT ATAGTCCTAA TGGTGGATTA TCAGGTACTG CAACTCCAAG AACATCAACA 
TTGGAAAATA CGGCTTCAGA ACTTAATAGC ATGCTTTCTG GCGACTCATA CAGTCCAACC 
GAAGACAACG TCGAAACAAC AGCAACGACT GTGTGGTTTA AATTGGTTAC GAAAAAGAAA 
ACCTACAAAT TTAGTTGCGA TAGCTCATTT TCAGCCAGAC AATGGTGTAA CAACATCACC 
AAATTGATTT TCCAGCACAA CAATGCCAAT TCCAACGGTG AAGTTTTAAT TAAAATCCCA 
ATTTCCAAAA TAATTGAGTA TAACAAAAGA GCATTGTTTA GCGAGGAAGA AGAAGAAGAG 
AAGAATTTGG ACGCAGCAAT GAACGATATA CCGTTAAATG TAACAATAAA ATACTTGGGT 
GATAACGAAA ACGAACGAAA GAGAGATAAA TTGAAAAGAA AATACAAAGG CGAAGAGTCT 
ACAACTGAGG AAGTTCACTT TTTATTTCCC AAAAGTGGTA TTGAGTTTTT TGAAACGTTT 
GATAACTTGA TGAATCCTGT TGTCCTGGAC AATGACAACC AATCATCAAG GTCATCTATC 
ACGAGTACCA ATTTTTCCGA AAAGGCGATA TCCACTTTGA GTAAATCACC GAACCATTTG 
GTGCAGACAG TGCTTGACTT TAACAAGCCC GTCGATGACG ATATTTCACC TTTTAAGAAG 
TTGGGGACTA CAATAACATC ACCAACAAGA ATTTTTAAGG CTACTATCAC ATCACCAGAA 
ATGACTAGCA TTGATGCAAC TAGCTTGAGA GAGAGCTTTG ATGGTGACCG TCTTCACCTC 
CCCAGAGAGA TGTCCGAGAG AGCATTGAAG AATTTGGAGG TTTCATTTGT AACTAGTCTC 
AAGAAATTGG AAGATGCGTC AAAGAGGTAC GAGAAACCAC ATATGGACTA TAACCAGACA 
AATCTGGCTT CGATATTATC TGATCCGTCA GAAGTGAAAA AACAATCGAA AACAGCTATA 
CTGAAGAGTA TCAAGGCTTT ATATAGTGTT GGGACACATT GGTCAGCAAC CCCGAATCAT 
TACTTTGAAC TAGGCAAGTA TTATGTTAGC AAAGTGCAGG ATAGAGACTC GTCTCAAAGA 
AACTTTCAAT CTCATTTTTC TACAAATTCG AAATTGCTTG CATCCTATTA TGGCCATTTA 
TTGAGAACAG TTCCAGTATA TGGTAAAATA TATGTATCTG ACACTGATGT CTGTTTCAGA 
AGTTTATTGC CTGGAGTATC CACGAAGATG GTGTTACCAA TGACTGATAT TGAAGAGGTA 
AGAGCTTCAC GGGGTTCGAG ATTGACGTAT CATGGATTAA GGCTTATTGC ACGAGGAAGC 
GAAGAGTTGG ATCTTGAATT TGGCTCTTCC AAATCGAGAG ATGATTTCCA AAAAGTTGTT 
CTTAGTGTTT TGGAAAAATT GCATTCGAAG GAAGGGTTTA GACCCGAACC GTATCAATGG 
GGTAGTAATT TTGAAGTTGA ATTATACAAG ACAAGAATGG AATACAGTGA TTCTGAAAAT 
AGAGAAATTC AACGATATGA TAATCTGATT GATATCAAAT TTGCAGAAAA GAGAATTGAA 
ATGGCGAGAG TGAGAATGTT TGAAGACAGA TTAATGGCTG CTTCAGGGTT GGACGTACCC 
ATTATATTGG AGGATTCTCC TTTTTTCAAA ACAGAATTGC GACCATCTAC TTCTTATAAT 
GTCACGTTAT TAACTATTGG ATCAAGAGGT GATGTCCAAC CATATATTGC ATTGGGTATA 
GGATTAGTGA AAGAAGGTCA TAATGTCACC ATTGCCACTC ATGCAGAATT TGGTGACTGG 
ATAAAAACTT TTGGGTTGGG GTTCAAAGAG ATTGCTGGGG ATCCAGCCGA GTTGATGTCT 
TTTATGGTAA CCCATAACTC TATGTCCGTG GGGTTTTTGA AAAATGCCCA ACAAAAGTTT 
AGGTCTTGGA TCTCAAAGTT GTTGACTACA AGTTGGGAAG CCTGTCAAGG TTCTGATATT 
TTGATTGAAA GTCCTTCTGC TATGAGTGGG ATTCATATTG CTGAAGCATT AGGGATACCA 
TATTTCAGAG CTTTTACCAT GCCCTGGACA CGAACTAGAG CTTATCCACA TGCATTCTTT 
GTACCAGATC AAAAGAAAGG AGGCTCATAC AATTACTTAA CTCACGTTTT ATTTGAGAAT 
ATATTTTGGA AAGGTATTTC TGGACAGGTT AATAAATGGA GAGTTGAGGA ATTAGATTTA 
CCGAAGACCA ACTTATACAG GTTGCAACAG ACAAAAGTTC CCTTTTTGTA TAACGTCTCA 
CCCGCCATAT TACCCCCCTC TGTCGATTTC CCAGATTGGA TTAAAGTAAC AGGATATTGG 
TTTCTAGATG AAGGTTCTGG AGATTACAAA CCACCCGAAG AACTTGTCCA ATTTATGAAA 
AAAGCATCAC GAGACAAAAA GAAGATTGTT TACATCGGAT TTGGTTCTAT TGTAGTGAAA 
GATGCAAAAT CTTTAACCAA GGCTGTGGTG TCTGCCGTGA GGAGAGCCGA TGTTCGTTGT 
ATTTTGAATA AGGGTTGGTC CGACAGGTTG GACCATAAAG ATAAAAACGA AGTTGAAGTT 
AGCTTGCCAC CGGAAATCTA CAATTCTGGA ACTATACCCC ATGATTGGTT GTTTCCACGT 
ATTGATGCTG CTGTCCATCA TGGAGGCTCC GGGACGACCG GTGCTACCAT GAGAGCCGGG 
ATACCAACCA TTATTAAACC ATTCTTTGGA GATCAGTTTT TCTATGCGAC GAGAATCGAA 
GATTTGGGTG CTGGTATTGC ATTAAAAAAA TTGACAGCCA GAACTTTGGC AGATGCTCTT 
ATAAAGGCTA CACACGATTT GAAAATCATA GATAAAGCAA AGAGAGTTAG TCAACAAATA 
AAACACGAAC ATGGAGTGCT TTCCGCAATA GAATCAATTT ATTCAGAATT AGAGTACTCG 
AGAAATTTGA TATTGATCAA AGATATTCAT AATCAGAATT ACAAACGTCA TCATCCAGTA 
CCTTCGGGTG TTCAAACTCC TGCTTATGAC ACTGACAGCG ATGATTATGT TGAAGAAGAT 
GATGATTTCG ATGAAGACGA TGATTCTGAT GAAGAGGAAG GAGATAAAGA GAATTTGCAG 
GATGATTATG TTGGAAATAG GGTCAATCTC AGCCCCAAGG AAACGTTGTC CAACTAG

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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ATG26 cDNA ORF clone, Candida dubliniensis CD36

Gene

Clones

gRNAs

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

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