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2024Hidden allies: how extracellular vesicles drive biofilm formation, stress adaptation, and host-immune interactions in human fungal pathogens., mBio 2024 Nov; (): e0304523.
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2024An IL-17-DUOX2 axis controls gastrointestinal colonization by Candida albicans., bioRxiv 2024 Aug; (): .
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2024Step-wise evolution of azole resistance through copy number variation followed by KSR1 loss of heterozygosity in Candida albicans., PLoS Pathog 2024 Aug; 20(8): e1012497.
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2024Identification of an active RNAi pathway in Candida albicans., Proc Natl Acad Sci U S A 2024 Apr; 121(17): e2315926121.
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2024Approaches for identifying and measuring heteroresistance in azole-susceptible Candida isolates., Microbiol Spectr 2024 Apr; 12(4): e0404123.
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2024The hyphal-specific toxin candidalysin promotes fungal gut commensalism., Nature 2024 Mar; 627(8004): 620-627.
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2023Coregulation of extracellular vesicle production and fluconazole susceptibility in Cryptococcus neoformans., mBio 2023 Aug; 14(4): e0087023.
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2023Azole potentiation in Candida species., PLoS Pathog 2023 Aug; 19(8): e1011583.
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2023Small molecules restore azole activity against drug-tolerant and drug-resistant Candida isolates., mBio 2023 Aug; 14(4): e0047923.
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2023Coregulation of extracellular vesicle production and fluconazole susceptibility in Cryptococcus neoformans, mBio, 2023, pp.e00870-23. ⟨10.1128/mbio.00870-23⟩.
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2023Aneuploidy and gene dosage regulate filamentation and host colonization by Candida albicans., Proc Natl Acad Sci U S A 2023 Mar; 120(11): e2218163120.
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2022The future of fungi: threats and opportunities., G3 (Bethesda) 2022 Nov; 12(11): .
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2022Candida albicans oscillating UME6 expression during intestinal colonization primes systemic Th17 protective immunity., Cell Rep 2022 May; 39(7): 110837.
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2021Candida albicans Isolates 529L and CHN1 Exhibit Stable Colonization of the Murine Gastrointestinal Tract., mBio 2021 Dec; 12(6): e0287821.
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2021The Interplay Between Neutral and Adaptive Processes Shapes Genetic Variation During Candida Species Evolution, Curr Clin Micro Rpt 8, 129–138 (2021)..
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2021Adaptation to the dietary sugar D-tagatose via genome instability in polyploid Candida albicans cells., G3 (Bethesda) 2021 Jul; 11(7): .
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2021Comparative genomics of white and opaque cell states supports an epigenetic mechanism of phenotypic switching in Candida albicans., G3 (Bethesda) 2021 Feb; 11(2): .
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2021Comparative genomics of white and opaque cell states supports an epigenetic mechanism of phenotypic switching in Candida albicans, G3 Genes|Genomes|Genetics, Volume 11, Issue 2, February 2021.
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2020Short-term evolution strategies for host adaptation and drug escape in human fungal pathogens., PLoS Pathog 2020 May; 16(5): e1008519.
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2019Hemizygosity Enables a Mutational Transition Governing Fungal Virulence and Commensalism., Cell Host Microbe 2019 Mar; 25(3): 418-431.e6.
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2019Mechanisms of genome evolution in Candida albicans., Curr Opin Microbiol 2019 Dec; 52(): 47-54.
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2018Antifungal tolerance is a subpopulation effect distinct from resistance and is associated with persistent candidemia., Nat Commun 2018 Jun; 9(1): 2470.
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2018Global analysis of mutations driving microevolution of a heterozygous diploid fungal pathogen., Proc Natl Acad Sci U S A 2018 Sep; 115(37): E8688-E8697.
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2016Systematic Genetic Screen for Transcriptional Regulators of the Candida albicans White-Opaque Switch, Genetics 2016 08; 203(4): 1679-92.
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2016Phenotypic Profiling Reveals that Candida albicans Opaque Cells Represent a Metabolically Specialized Cell State Compared to Default White Cells., mBio 2016 Nov; 7(6): .
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2015Cell Wall Remodeling Enzymes Modulate Fungal Cell Wall Elasticity and Osmotic Stress Resistance, mBio 2015 Jul; 6(4): e00986.
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2014Metabolism in fungal pathogenesis, Cold Spring Harb Perspect Med 2014 Sep; 4(12): a019695.
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2014The cryptic sexual strategies of human fungal pathogens, Nat Rev Microbiol 2014 Apr; 12(4): 239-51.
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2014Integration of metabolism with virulence in Candida albicans, Fungal Genomics, The Mycota XIII 2014 (book chapter).
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2014Stress adaptation in a pathogenic fungus, J Exp Biol 2014 Jan; 217(Pt 1): 144-55.
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2013Growth of Candida albicans cells on the physiologically relevant carbon source lactate affects their recognition and phagocytosis by immune cells, Infect Immun 2013 Jan; 81(1): 238-48.
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2012Carbon source-induced reprogramming of the cell wall proteome and secretome modulates the adherence and drug resistance of the fungal pathogen Candida albicans, Proteomics 2012 Nov; 12(21): 3164-79.
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2012Host carbon sources modulate cell wall architecture, drug resistance and virulence in a fungal pathogen, Cell Microbiol 2012 Sep; 14(9): 1319-35.
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2009Hwp1 and related adhesins contribute to both mating and biofilm formation in Candida albicans, Eukaryot Cell 2009 Dec; 8(12): 1909-13.