CD36_03590 cDNA ORF clone, Candida dubliniensis CD36

Gene
Clones
gRNAs

Summary

Gene Symbol	CD36_03590
Entrez Gene ID	8044567
Full Name	bud neck localizing protein phosphatase subunit, morphogenesis and cell wall composition modulator, putative
Gene Type	protein-coding
Organism	Candida dubliniensis CD36

mRNA and Protein(s)

mRNA	Protein	Name
XM_002416986.1	XP_002417031.1	bud neck localizing protein phosphatase subunit, morphogenesis and cell wall composition modulator, 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_03590 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CD36_03590 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
OCr00320	XM_002416986.1 Latest version!	Candida dubliniensis CD36 bud neck localizing protein phosphatase subunit, morphogenesis and cell wall composition modulator, putative (CD36_03590), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00

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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_03590 ( XM_002416986.1 ) cDNA ORF clone, Candida dubliniensis CD36 -> XP_002417031.1 Candida dubliniensis CD36 bud neck localizing protein phosphatase subunit, morphogenesis and cell wall composition modulator, putative (CD36_03590), partial mRNA.

Price & Availability↑

CloneID	OCr00320
Clone ID Related Accession (Same CDS sequence)	XM_002416986.1
Accession Version	XM_002416986.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5007bp) 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	bud neck localizing protein phosphatase subunit, morphogenesis and cell wall composition modulator, 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.

ATGGCTGATT CAACTTTTGA TGAGTTTTTC GAAAATGATT TCTATTCAGC TCCTACATCT 
ATTAATAATT CTAAAAATCA TGTTAAAAAC GTTAGAAATT CTATTCAAAT CAAACATTCA 
ATGTCATCAA GGTCATTAAA TGATTTCACT AAAGATATAC CTCTGTCGGC AACTATCAGT 
AACTCAATCA CCAAATCCAA TACACTGACA AATCCTTCTT CAAAACTGGG AAATACATCT 
GGTGGTAGTA CTAGAACATC TATAATTAAA GCTTCACCTT CTTTAAAAGC TTTAGAAAGT 
ATACTTAATG AAAAGAATAA ACAATATAAT ATAACCAATA CTAATATTAT TGAGGAAGTT 
GAAGACGAAG AAGAACAAGA ACAAGAACAA GAATCAGGAA AGAATCATTA CCAGGGACTT 
AATACATTAT CCCCTCCGAT TTTGTTTACT TATAATAGTA GTAATGTTAG AGAATCAGTA 
CAAACTTTTG AGACTGCTAT TGAATCTTTA AATGAGGACG ATACACTTGC TGTATTATCA 
ACTAATACTG GCAATAGTAA TACCAATAGC CTTATCACTA ATAATAATAA TATTAATAAT 
AATGGTTATA ATAATGGTTA TCCATTAACT ACAAAGACAA GTAAATCATC GTCAACTAAT 
TCTCATAAAT ATAATAAATC GTCAATTTCA ACAATTAGTG AGTCCGGGTA TAGTACTGAT 
GATACTCCAA TCATATCACA ACCACTTACT TTCCAAAGTT TCACACCACA TAGTTTTGAA 
TCTCCTCAAT TGAAGATGGT TGATATAACT GAAGAATCTA ATTTTGATAA TGAAAATAGT 
AATTCTACCA TTACAACTAA TACAGTAAGG ACTAAAAATG AATCTAAAAA TAATTTATTT 
TGTGGTGGTG GTAGCAGTAG TAGTGGTGCT AACAATAGTG TTAATGAAGG TGCGCAATAC 
AATAAAAGTA GCACAAATTT CTCAAACAAA CAAATTGATC AGAATTTTCA TTCTTCTTCC 
CAACAATCAT TTCAACAACT TCAACAACCT CAACAACCAC TTCAACCACC ATTAAATTCA 
ACTAATCAAC AAATGCCTCA AACAAATTCC CAACCATTAC ATCCACCTAG ACATGTAAAA 
CATCCAACTA ATAATACTAC CAATAATAAC CCTTTTTATA ATACTACTAC TACTACTTCG 
CATTCCAATC AAAATAATTT ATTTAATAAA AACGTGTCGG TACCATTAAC TCAACAACCG 
GCATATCCAG GAAATAATAG TAATAATAAT AATAATAATA CTGGCCCCAA TCTTCATCAT 
AACAAAAGTA ATAATTATAA TATTATTCGT ACTGTTAGTA ATAATTCAAA TTCTAACATG 
TCCCTTGATT CAAATTTTTC TTCTCATTCA CCCCTGAATA GTAATAATTC CCGTGGAAAA 
ATTGTTCGTA AATCCAAAAG TATGTTGACG GTTCTAACTA ATGATAATGA TTCAATGAGT 
TCATTACACA CACCACCACC TCCACATCAA CCAACCAATG ATTCTGCATC ATTGGGATCA 
CCTCATAAAC GTCCATCTCA TCCAAGATCA AATTCATCAT ATTCAATTAT GAAAGATAAA 
ATCAACCGTA AAAATAATAC TACCAATAAT AATAGTGCTT CAACTGTTCA CCATTCTGAA 
AATAAAACCC TTCTGCATAA ACGAAGTAGT ACATTGAATG ATTTAAGCAA GTTGAATTCG 
GAACAACTTG CATCCTCATC ATCATCATCA TCACCAGCAG GGGTTTTACC ATCCACGGCA 
AGTACTAATC TGAAATCAAG TAATGGGAAG AAAAAATTTA GTTTCAAATC ATTATTTAAA 
TCAAAATCAA AGAGTCATTC ATTGAATGAT TCTAATTCAT CAATACTGGA ACCGAAAAAG 
ATTACTTCAA AATCATATTC TACTCCTAAT ATGCAAATCC TATCAGAACA ACCAAAATCA 
ATTGATGACA TTAACAATAC TAATAAACAA ACTACCAAAC CAGAATCTAA ATCAAATATT 
TCATTTATGA ATAGATTTAA AAAGAATAAA TCATCTGATA ATTTGAACAA ACTTGGATCA 
TCCCATCAAC AACCAGGGTT GAAGAAAGGA GTATCTAATT CTAATCCTTC ACTTTCTTCA 
TTGAATGGGA ATAAAACCAA TAAATCATTA CCACAAAATC AAGATAATTC TAAATTTGGA 
TTACTGGCAC CACCAGTTAA TAGAAATTCA TTTAATTTTA TTAGAGAAGT TAGTGAGGAT 
AGTGTTTACA TTGGAGATCA AAATGATGAT ATTGAAGATG AACATTCAGG TGAAGAAGAT 
GTTAAACCAG TAACAAAGAA TGGTTATAAA AGTTTTGGTA ATATTCATAA TAACAGTGAT 
GAAGAAGATG ATAATGTTGA TCGATTATCA ATAGAAGAAC AACAACCAGA TGTTTCTGAT 
GATGAAGAAA AGGAGAAAGA TTTTGAATAT TATGATGCTA AAAATTTGAC TGAAGATCCA 
CCTAAAAAAA TGTCGTCAGG GAATAAATAT GGTGAAGAAA TTTCTTTAAT ACCACCTTTG 
ATTGATTCTA ATCAATTTGG ATCACCATTT AAAGTCAATT ATCAAAGTTC ACCTAAATCA 
ATTGATAATA GACATGAAGG GAAAGATACT GACAGTCCAC TTCAAAGAAC TATCAAGCGG 
TTCTCTAATA CACCTTCATC ATTGACAATT CCTATCAAAC CACCGCTGCC AATTAGATAT 
CCTCAACAAA AACAACAACA ACAACAACAA CAGCAGACAA ACACAAACAA TAATGCCCAT 
TCAACTGAAG ATAAAACTAA TACTCAATTA TTGGGTGAAG CATTATTTCC TAAATCATTG 
AATGCTCATG AAGTTGAAAG TATTGTATCT TTAGAACGAT CAAGATCTAT GAAATCAGTG 
AAATCTAATA AACGTAGTTC ATTTGTTAAT TATGATGGTA GTGATGATAA TATTGTTCAT 
TATGTTGGAC CTATTTCAAA ACCAACTACT AGTGGTAATG GTATTACTAG ATCAAATTCA 
ATATTGAAAA ATTCAACTAG TCGAAAAAGT AATTTGAATG AAGAATTAAA GATGAATTCA 
ATTGATGGTA CGGTTTCAGG AACAATAAAC AGCAATAACA ATAACAATAA CAATAACAAT 
AACAATAATA GTGATACTAG TGGTAATATC AAGGTGATTA ATGATACCAC AACTATGAAT 
GATACTTATA CTACCATTAC TGATACTGGA AATGGTGCTA TTGGTGAAAA TATTCTTGGA 
TCTAGTGGTA ATGGTTTTGG TAATACTAGT GCTAGTGGTA TTGATACTGG TGATGATTTA 
ATGGAATTTA GTGAATTTAT TGATGTTGAA AATATGAATT TCCTTGATTC ACCTATCCCA 
GGATCACCAA TTACTAATAA TGGTAAGTTT TTACAAACAT CAACAACTCC TTCATCTCCA 
TTAGCTAATT ATCAATTTGA TCATAATTCC ATTAATAAAA TTGAACAGCA AGAACAACAG 
CAAGAACAAC AACAACAACA GGGGAATATT GTTGATCAAT CGACTCCTGA ACCTCCAGTT 
ATTGTTATTA ATAAAGATAA TTTAGATACT AAATCAATGA CAAATTCAAC CGTTGGCACT 
AAAACCAATT CAATACCAAC TATTACTATA CCAGATAAAG AAACAACAGA AATTACAACT 
GGTATAAATA ATAAGGATTC TATTGATTCG AAAACTCCAT CTTCATCACC ACTTTCAATG 
AAACATTATG ATTCACCGAA AACTAGTGTT GAAGAAAAAG AAGACCAACC ACATAATGAA 
AAGAATGAAT CAACAAATCA ACAACAACAA CAACAACAAG AATCTACTGA TATCATTGAT 
GAACATGTGA TTAGTAAGTC ACCTATTTTG GAAAGTGCTT ATAGAGTTAG ATCACAGAAA 
AAACCAGAAA ATGGTAAATT TACTAAACAG AATCGACCAA TTTCAATGTC ATTTAAAGGA 
TTGAATGCTC CATCATTTAC TGGGAAACTT AAAAAAGAAG TATTAAGAAG TAGCGATTCT 
CATCAATCAT TTAATATTAA TTTTAATGAT GAAGAGGATG ACGGTGATGA AGATGATGAT 
TCATCACTTT CAGTTGGTGG AGGATTTGGA AGTAGTTCCG AAGACGACGA CGACGATGAT 
GATGATGATG ATGATGATGC ATATAGTTTT GAACAAGAAA ATGATATATC AAGTGCATCA 
AGATTTTATA ATACTAATGA TGATTATATT GAAAACAAAG AGAATAGAGT ACCTGGAAGT 
GGTAATACCA ATAATAGTAG TATTGCTAAT GAAAAAGTAT CACCTTTAAT ACCACCACCA 
CCACCACCAA GTAATTCTCA TTCAAATATA ATAGTTCAAC CACAATCTCC AGCACCATCA 
AATAAATCAT CAGTATTTTC ACCAAAACAA TCAAATGATA TCAATAAGAA ACCAACCAAT 
CAACCACCCT CATCACCACC ACAACAATCA CAATCACAAT CACAATCACA TCTGCAACAT 
TTTAGTTTAC AACCATTGAA AAAATTCACT CATAATAAAA TCCCTTCAAT TTCTGATCAA 
TCATCAATTA ATTCAGAATC ATCACCAAGA TCATTTACAT CAATGATTAG TAAAAAATGG 
GGCAATAGAA AGAATGGTGG TAATTCTCTG AATTCTCCAA ATTCTCCAAA TTCAAATTCA 
AATTCAACAT TACCTCCTCC TCCTCCTCCT GCTCCTGCTC CTTCACAACT TCCTGGTAAG 
TTACAAATCA CTACAGGAGT TAGATTTAGT TCAAGAATTA TATTATATGA TACATATAAT 
GAAGATGAAT ATGATCGACA TCCTGATACT GCCACTTGTA ATCAATTGAC TCCATTATTA 
GCTCAACAAA TTAAAGATGA ATTGAATAAT TTTAAAAGTG AAATGGAAAT TCATGTTGAA 
TCAAGATGTT ATACTCATTT CTTTTAA

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

RefSeq	XP_002417031.1
CDS	1..5007
Translation	MADSTFDEFFENDFYSAPTSINNSKNHVKNVRNSIQIKHSMSSRSLNDFTKDIPLSATISNSITKSNTLTNPSSKLGNTSGGSTRTSIIKASPSLKALESILNEKNKQYNITNTNIIEEVEDEEEQEQEQESGKNHYQGLNTLSPPILFTYNSSNVRESVQTFETAIESLNEDDTLAVLSTNTGNSNTNSLITNNNNINNNGYNNGYPLTTKTSKSSSTNSHKYNKSSISTISESGYSTDDTPIISQPLTFQSFTPHSFESPQLKMVDITEESNFDNENSNSTITTNTVRTKNESKNNLFCGGGSSSSGANNSVNEGAQYNKSSTNFSNKQIDQNFHSSSQQSFQQLQQPQQPLQPPLNSTNQQMPQTNSQPLHPPRHVKHPTNNTTNNNPFYNTTTTTSHSNQNNLFNKNVSVPLTQQPAYPGNNSNNNNNNTGPNLHHNKSNNYNIIRTVSNNSNSNMSLDSNFSSHSPLNSNNSRGKIVRKSKSMLTVLTNDNDSMSSLHTPPPPHQPTNDSASLGSPHKRPSHPRSNSSYSIMKDKINRKNNTTNNNSASTVHHSENKTLLHKRSSTLNDLSKLNSEQLASSSSSSSPAGVLPSTASTNLKSSNGKKKFSFKSLFKSKSKSHSLNDSNSSILEPKKITSKSYSTPNMQILSEQPKSIDDINNTNKQTTKPESKSNISFMNRFKKNKSSDNLNKLGSSHQQPGLKKGVSNSNPSLSSLNGNKTNKSLPQNQDNSKFGLLAPPVNRNSFNFIREVSEDSVYIGDQNDDIEDEHSGEEDVKPVTKNGYKSFGNIHNNSDEEDDNVDRLSIEEQQPDVSDDEEKEKDFEYYDAKNLTEDPPKKMSSGNKYGEEISLIPPLIDSNQFGSPFKVNYQSSPKSIDNRHEGKDTDSPLQRTIKRFSNTPSSLTIPIKPPLPIRYPQQKQQQQQQQQTNTNNNAHSTEDKTNTQLLGEALFPKSLNAHEVESIVSLERSRSMKSVKSNKRSSFVNYDGSDDNIVHYVGPISKPTTSGNGITRSNSILKNSTSRKSNLNEELKMNSIDGTVSGTINSNNNNNNNNNNNNSDTSGNIKVINDTTTMNDTYTTITDTGNGAIGENILGSSGNGFGNTSASGIDTGDDLMEFSEFIDVENMNFLDSPIPGSPITNNGKFLQTSTTPSSPLANYQFDHNSINKIEQQEQQQEQQQQQGNIVDQSTPEPPVIVINKDNLDTKSMTNSTVGTKTNSIPTITIPDKETTEITTGINNKDSIDSKTPSSSPLSMKHYDSPKTSVEEKEDQPHNEKNESTNQQQQQQQESTDIIDEHVISKSPILESAYRVRSQKKPENGKFTKQNRPISMSFKGLNAPSFTGKLKKEVLRSSDSHQSFNINFNDEEDDGDEDDDSSLSVGGGFGSSSEDDDDDDDDDDDDAYSFEQENDISSASRFYNTNDDYIENKENRVPGSGNTNNSSIANEKVSPLIPPPPPPSNSHSNIIVQPQSPAPSNKSSVFSPKQSNDINKKPTNQPPSSPPQQSQSQSQSHLQHFSLQPLKKFTHNKIPSISDQSSINSESSPRSFTSMISKKWGNRKNGGNSLNSPNSPNSNSNSTLPPPPPPAPAPSQLPGKLQITTGVRFSSRIILYDTYNEDEYDRHPDTATCNQLTPLLAQQIKDELNNFKSEMEIHVESRCYTHFF

Target ORF information:

RefSeq Version	XM_002416986.1
Organism	Candida dubliniensis CD36
Definition	Candida dubliniensis CD36 bud neck localizing protein phosphatase subunit, morphogenesis and cell wall composition modulator, putative (CD36_03590), partial mRNA.

Target ORF information:

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

XM_002416986.1

ORF Insert Sequence:

ATGGCTGATT CAACTTTTGA TGAGTTTTTC GAAAATGATT TCTATTCAGC TCCTACATCT 
ATTAATAATT CTAAAAATCA TGTTAAAAAC GTTAGAAATT CTATTCAAAT CAAACATTCA 
ATGTCATCAA GGTCATTAAA TGATTTCACT AAAGATATAC CTCTGTCGGC AACTATCAGT 
AACTCAATCA CCAAATCCAA TACACTGACA AATCCTTCTT CAAAACTGGG AAATACATCT 
GGTGGTAGTA CTAGAACATC TATAATTAAA GCTTCACCTT CTTTAAAAGC TTTAGAAAGT 
ATACTTAATG AAAAGAATAA ACAATATAAT ATAACCAATA CTAATATTAT TGAGGAAGTT 
GAAGACGAAG AAGAACAAGA ACAAGAACAA GAATCAGGAA AGAATCATTA CCAGGGACTT 
AATACATTAT CCCCTCCGAT TTTGTTTACT TATAATAGTA GTAATGTTAG AGAATCAGTA 
CAAACTTTTG AGACTGCTAT TGAATCTTTA AATGAGGACG ATACACTTGC TGTATTATCA 
ACTAATACTG GCAATAGTAA TACCAATAGC CTTATCACTA ATAATAATAA TATTAATAAT 
AATGGTTATA ATAATGGTTA TCCATTAACT ACAAAGACAA GTAAATCATC GTCAACTAAT 
TCTCATAAAT ATAATAAATC GTCAATTTCA ACAATTAGTG AGTCCGGGTA TAGTACTGAT 
GATACTCCAA TCATATCACA ACCACTTACT TTCCAAAGTT TCACACCACA TAGTTTTGAA 
TCTCCTCAAT TGAAGATGGT TGATATAACT GAAGAATCTA ATTTTGATAA TGAAAATAGT 
AATTCTACCA TTACAACTAA TACAGTAAGG ACTAAAAATG AATCTAAAAA TAATTTATTT 
TGTGGTGGTG GTAGCAGTAG TAGTGGTGCT AACAATAGTG TTAATGAAGG TGCGCAATAC 
AATAAAAGTA GCACAAATTT CTCAAACAAA CAAATTGATC AGAATTTTCA TTCTTCTTCC 
CAACAATCAT TTCAACAACT TCAACAACCT CAACAACCAC TTCAACCACC ATTAAATTCA 
ACTAATCAAC AAATGCCTCA AACAAATTCC CAACCATTAC ATCCACCTAG ACATGTAAAA 
CATCCAACTA ATAATACTAC CAATAATAAC CCTTTTTATA ATACTACTAC TACTACTTCG 
CATTCCAATC AAAATAATTT ATTTAATAAA AACGTGTCGG TACCATTAAC TCAACAACCG 
GCATATCCAG GAAATAATAG TAATAATAAT AATAATAATA CTGGCCCCAA TCTTCATCAT 
AACAAAAGTA ATAATTATAA TATTATTCGT ACTGTTAGTA ATAATTCAAA TTCTAACATG 
TCCCTTGATT CAAATTTTTC TTCTCATTCA CCCCTGAATA GTAATAATTC CCGTGGAAAA 
ATTGTTCGTA AATCCAAAAG TATGTTGACG GTTCTAACTA ATGATAATGA TTCAATGAGT 
TCATTACACA CACCACCACC TCCACATCAA CCAACCAATG ATTCTGCATC ATTGGGATCA 
CCTCATAAAC GTCCATCTCA TCCAAGATCA AATTCATCAT ATTCAATTAT GAAAGATAAA 
ATCAACCGTA AAAATAATAC TACCAATAAT AATAGTGCTT CAACTGTTCA CCATTCTGAA 
AATAAAACCC TTCTGCATAA ACGAAGTAGT ACATTGAATG ATTTAAGCAA GTTGAATTCG 
GAACAACTTG CATCCTCATC ATCATCATCA TCACCAGCAG GGGTTTTACC ATCCACGGCA 
AGTACTAATC TGAAATCAAG TAATGGGAAG AAAAAATTTA GTTTCAAATC ATTATTTAAA 
TCAAAATCAA AGAGTCATTC ATTGAATGAT TCTAATTCAT CAATACTGGA ACCGAAAAAG 
ATTACTTCAA AATCATATTC TACTCCTAAT ATGCAAATCC TATCAGAACA ACCAAAATCA 
ATTGATGACA TTAACAATAC TAATAAACAA ACTACCAAAC CAGAATCTAA ATCAAATATT 
TCATTTATGA ATAGATTTAA AAAGAATAAA TCATCTGATA ATTTGAACAA ACTTGGATCA 
TCCCATCAAC AACCAGGGTT GAAGAAAGGA GTATCTAATT CTAATCCTTC ACTTTCTTCA 
TTGAATGGGA ATAAAACCAA TAAATCATTA CCACAAAATC AAGATAATTC TAAATTTGGA 
TTACTGGCAC CACCAGTTAA TAGAAATTCA TTTAATTTTA TTAGAGAAGT TAGTGAGGAT 
AGTGTTTACA TTGGAGATCA AAATGATGAT ATTGAAGATG AACATTCAGG TGAAGAAGAT 
GTTAAACCAG TAACAAAGAA TGGTTATAAA AGTTTTGGTA ATATTCATAA TAACAGTGAT 
GAAGAAGATG ATAATGTTGA TCGATTATCA ATAGAAGAAC AACAACCAGA TGTTTCTGAT 
GATGAAGAAA AGGAGAAAGA TTTTGAATAT TATGATGCTA AAAATTTGAC TGAAGATCCA 
CCTAAAAAAA TGTCGTCAGG GAATAAATAT GGTGAAGAAA TTTCTTTAAT ACCACCTTTG 
ATTGATTCTA ATCAATTTGG ATCACCATTT AAAGTCAATT ATCAAAGTTC ACCTAAATCA 
ATTGATAATA GACATGAAGG GAAAGATACT GACAGTCCAC TTCAAAGAAC TATCAAGCGG 
TTCTCTAATA CACCTTCATC ATTGACAATT CCTATCAAAC CACCGCTGCC AATTAGATAT 
CCTCAACAAA AACAACAACA ACAACAACAA CAGCAGACAA ACACAAACAA TAATGCCCAT 
TCAACTGAAG ATAAAACTAA TACTCAATTA TTGGGTGAAG CATTATTTCC TAAATCATTG 
AATGCTCATG AAGTTGAAAG TATTGTATCT TTAGAACGAT CAAGATCTAT GAAATCAGTG 
AAATCTAATA AACGTAGTTC ATTTGTTAAT TATGATGGTA GTGATGATAA TATTGTTCAT 
TATGTTGGAC CTATTTCAAA ACCAACTACT AGTGGTAATG GTATTACTAG ATCAAATTCA 
ATATTGAAAA ATTCAACTAG TCGAAAAAGT AATTTGAATG AAGAATTAAA GATGAATTCA 
ATTGATGGTA CGGTTTCAGG AACAATAAAC AGCAATAACA ATAACAATAA CAATAACAAT 
AACAATAATA GTGATACTAG TGGTAATATC AAGGTGATTA ATGATACCAC AACTATGAAT 
GATACTTATA CTACCATTAC TGATACTGGA AATGGTGCTA TTGGTGAAAA TATTCTTGGA 
TCTAGTGGTA ATGGTTTTGG TAATACTAGT GCTAGTGGTA TTGATACTGG TGATGATTTA 
ATGGAATTTA GTGAATTTAT TGATGTTGAA AATATGAATT TCCTTGATTC ACCTATCCCA 
GGATCACCAA TTACTAATAA TGGTAAGTTT TTACAAACAT CAACAACTCC TTCATCTCCA 
TTAGCTAATT ATCAATTTGA TCATAATTCC ATTAATAAAA TTGAACAGCA AGAACAACAG 
CAAGAACAAC AACAACAACA GGGGAATATT GTTGATCAAT CGACTCCTGA ACCTCCAGTT 
ATTGTTATTA ATAAAGATAA TTTAGATACT AAATCAATGA CAAATTCAAC CGTTGGCACT 
AAAACCAATT CAATACCAAC TATTACTATA CCAGATAAAG AAACAACAGA AATTACAACT 
GGTATAAATA ATAAGGATTC TATTGATTCG AAAACTCCAT CTTCATCACC ACTTTCAATG 
AAACATTATG ATTCACCGAA AACTAGTGTT GAAGAAAAAG AAGACCAACC ACATAATGAA 
AAGAATGAAT CAACAAATCA ACAACAACAA CAACAACAAG AATCTACTGA TATCATTGAT 
GAACATGTGA TTAGTAAGTC ACCTATTTTG GAAAGTGCTT ATAGAGTTAG ATCACAGAAA 
AAACCAGAAA ATGGTAAATT TACTAAACAG AATCGACCAA TTTCAATGTC ATTTAAAGGA 
TTGAATGCTC CATCATTTAC TGGGAAACTT AAAAAAGAAG TATTAAGAAG TAGCGATTCT 
CATCAATCAT TTAATATTAA TTTTAATGAT GAAGAGGATG ACGGTGATGA AGATGATGAT 
TCATCACTTT CAGTTGGTGG AGGATTTGGA AGTAGTTCCG AAGACGACGA CGACGATGAT 
GATGATGATG ATGATGATGC ATATAGTTTT GAACAAGAAA ATGATATATC AAGTGCATCA 
AGATTTTATA ATACTAATGA TGATTATATT GAAAACAAAG AGAATAGAGT ACCTGGAAGT 
GGTAATACCA ATAATAGTAG TATTGCTAAT GAAAAAGTAT CACCTTTAAT ACCACCACCA 
CCACCACCAA GTAATTCTCA TTCAAATATA ATAGTTCAAC CACAATCTCC AGCACCATCA 
AATAAATCAT CAGTATTTTC ACCAAAACAA TCAAATGATA TCAATAAGAA ACCAACCAAT 
CAACCACCCT CATCACCACC ACAACAATCA CAATCACAAT CACAATCACA TCTGCAACAT 
TTTAGTTTAC AACCATTGAA AAAATTCACT CATAATAAAA TCCCTTCAAT TTCTGATCAA 
TCATCAATTA ATTCAGAATC ATCACCAAGA TCATTTACAT CAATGATTAG TAAAAAATGG 
GGCAATAGAA AGAATGGTGG TAATTCTCTG AATTCTCCAA ATTCTCCAAA TTCAAATTCA 
AATTCAACAT TACCTCCTCC TCCTCCTCCT GCTCCTGCTC CTTCACAACT TCCTGGTAAG 
TTACAAATCA CTACAGGAGT TAGATTTAGT TCAAGAATTA TATTATATGA TACATATAAT 
GAAGATGAAT ATGATCGACA TCCTGATACT GCCACTTGTA ATCAATTGAC TCCATTATTA 
GCTCAACAAA TTAAAGATGA ATTGAATAAT TTTAAAAGTG AAATGGAAAT TCATGTTGAA 
TCAAGATGTT ATACTCATTT CTTTTAA

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_03590 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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