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Please use this identifier to cite or link to this item: https://doi.org/10.1038/s41467-018-06944-1
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dc.titleCandida albicans gains azole resistance by altering sphingolipid composition
dc.contributor.authorGao, J
dc.contributor.authorWang, H
dc.contributor.authorLi, Z
dc.contributor.authorWong, A.H.-H
dc.contributor.authorWang, Y.-Z
dc.contributor.authorGuo, Y
dc.contributor.authorLin, X
dc.contributor.authorZeng, G
dc.contributor.authorWang, Y
dc.contributor.authorWang, J
dc.date.accessioned2020-10-20T09:40:36Z
dc.date.available2020-10-20T09:40:36Z
dc.date.issued2018
dc.identifier.citationGao, J, Wang, H, Li, Z, Wong, A.H.-H, Wang, Y.-Z, Guo, Y, Lin, X, Zeng, G, Wang, Y, Wang, J (2018). Candida albicans gains azole resistance by altering sphingolipid composition. Nature Communications 9 (1) : 4495. ScholarBank@NUS Repository. https://doi.org/10.1038/s41467-018-06944-1
dc.identifier.issn2041-1723
dc.identifier.urihttps://scholarbank.nus.edu.sg/handle/10635/178388
dc.description.abstractFungal infections by drug-resistant Candida albicans pose a global public health threat. However, the pathogen’s diploid genome greatly hinders genome-wide investigations of resistance mechanisms. Here, we develop an efficient piggyBac transposon-mediated mutagenesis system using stable haploid C. albicans to conduct genome-wide genetic screens. We find that null mutants in either gene FEN1 or FEN12 (encoding enzymes for the synthesis of very-long-chain fatty acids as precursors of sphingolipids) exhibit resistance to fluconazole, a first-line antifungal drug. Mass-spectrometry analyses demonstrate changes in cellular sphingolipid composition in both mutants, including substantially increased levels of several mannosylinositolphosphoceramides with shorter fatty-acid chains. Treatment with fluconazole induces similar changes in wild-type cells, suggesting a natural response mechanism. Furthermore, the resistance relies on a robust upregulation of sphingolipid biosynthesis genes. Our results shed light into the mechanisms underlying azole resistance, and the new transposon-mediated mutagenesis system should facilitate future genome-wide studies of C. albicans. © 2018, The Author(s).
dc.publisherNature Publishing Group
dc.rightsAttribution 4.0 International
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/
dc.sourceUnpaywall 20201031
dc.subjectdouble stranded DNA
dc.subjectfluconazole
dc.subjectfungal DNA
dc.subjectgenomic DNA
dc.subjectpiggybac transposase
dc.subjectsphingolipid
dc.subjecttransposase
dc.subjectunclassified drug
dc.subjectvery long chain fatty acid
dc.subjectpyrrole derivative
dc.subjectsphingolipid
dc.subjectsterol
dc.subjectchemical composition
dc.subjectdrug resistance
dc.subjectfatty acid
dc.subjectfungus
dc.subjectgenetic analysis
dc.subjectgenome
dc.subjectlipid
dc.subjectmass spectrometry
dc.subjectmutagenicity
dc.subjectmutation
dc.subjectpesticide resistance
dc.subjectantifungal resistance
dc.subjectArticle
dc.subjectCandida albicans
dc.subjectcontrolled study
dc.subjectDNA content
dc.subjectfatty acid synthesis
dc.subjectfungal genome
dc.subjectfungal strain
dc.subjectgenetic screening
dc.subjectlipid composition
dc.subjectlipogenesis
dc.subjectmass spectrometry
dc.subjectmutagenesis
dc.subjectnonhuman
dc.subjectnuclear localization signal
dc.subjecttransposon
dc.subjectupregulation
dc.subjectantifungal resistance
dc.subjectCandida albicans
dc.subjectdrug effect
dc.subjectfungal gene
dc.subjectgenetics
dc.subjecthaploidy
dc.subjectmetabolism
dc.subjectmutation
dc.subjectnucleotide sequence
dc.subjectphysiology
dc.subjectCandida albicans
dc.subjectAzoles
dc.subjectBase Sequence
dc.subjectCandida albicans
dc.subjectDNA Transposable Elements
dc.subjectDrug Resistance, Fungal
dc.subjectGenes, Fungal
dc.subjectGenetic Testing
dc.subjectHaploidy
dc.subjectMutagenesis
dc.subjectMutation
dc.subjectSphingolipids
dc.subjectSterols
dc.typeArticle
dc.contributor.departmentBIOCHEMISTRY
dc.description.doi10.1038/s41467-018-06944-1
dc.description.sourcetitleNature Communications
dc.description.volume9
dc.description.issue1
dc.description.page4495
dc.published.statepublished
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