The novel second-generation triterpenoid SCY-247 maintains <i>in vitro</i> and <i>in vivo</i> activity against resistant <i>Candida glabrata</i>. [PDF]
Antimicrob Agents ChemotherWiederhold NP +5 more
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Uridine diphosphate <i>N</i>-acetylglucosamine homeostasis via CgNgk1 kinase modulates chitin levels and cell-wall integrity in <i>Candida glabrata</i>. [PDF]
FEMS MicrobesYamada R +4 more
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Core histones govern echinocandin susceptibility in <i>Candida glabrata</i>. [PDF]
Microbiol SpectrPareek A, Kaur R.
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Prevalence and molecular basis of resistance to echinocandins among clinical Candida glabrata isolates in Guangdong province, China. [PDF]
BMC MicrobiolLin W +5 more
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Protocol for analyzing chromatin dynamics in macrophage-internalized Candida glabrata cells using micrococcal nuclease digestion. [PDF]
STAR ProtocKumar K, Pareek A, Kaur R.
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Molecular characterization of Echinocandin resistance and the CHS3-mediated adaptive response in Candida glabrata bloodstream infections in Eastern China. [PDF]
BMC MicrobiolCong P +7 more
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Detection of ERG11 gene mutation in coding and non-coding regions of clinical Candida glabrata (Nakaseomyces glabratus) isolates from Pakistan. [PDF]
Access MicrobiolMemon S +5 more
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Induction of Antifungal Tolerance Reveals Genetic and Phenotypic Changes in <i>Candida glabrata</i>. [PDF]
J Fungi (Basel)Chedraoui C +4 more
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Antifungal exposure can enhance Candida glabrata pathogenesis
Ribeiro GF +4 more
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Eustachian Valve Endocarditis Secondary to Candida glabrata Complicated by Frailty and Acute COVID-19 Infection. [PDF]
CureusDavis BL, Garry RT.
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