Molecular biological characterization of an azole-resistant Candida glabrata isolate
about
Genomic Plasticity of the Human Fungal Pathogen Candida albicansMechanisms of Candida biofilm drug resistanceAneuploidy and drug resistance in pathogenic fungiMolecular mechanism of terbinafine resistance in Saccharomyces cerevisiaeAcquisition of aneuploidy provides increased fitness during the evolution of antifungal drug resistanceTargeting the adaptability of heterogeneous aneuploidsGenetic Basis of Antifungal Drug ResistanceEvolution of microbial pathogens.The ins and outs of DNA fingerprinting the infectious fungiDevelopment of azole resistance in Aspergillus fumigatus during azole therapy associated with change in virulence.Fluconazole resistance associated with drug efflux and increased transcription of a drug transporter gene, PDH1, in Candida glabrataGenerational distribution of a Candida glabrata population: Resilient old cells prevail, while younger cells dominate in the vulnerable hostClinical, cellular, and molecular factors that contribute to antifungal drug resistance.Mechanisms of azole resistance in clinical isolates of Candida glabrata collected during a hospital survey of antifungal resistance.Rapid acquisition of stable azole resistance by Candida glabrata isolates obtained before the clinical introduction of fluconazole.Accumulation of 3-ketosteroids induced by itraconazole in azole-resistant clinical Candida albicans isolates.The ATP binding cassette transporter gene CgCDR1 from Candida glabrata is involved in the resistance of clinical isolates to azole antifungal agents.Experimental induction of fluconazole resistance in Candida tropicalis ATCC 750Role of ATP-binding-cassette transporter genes in high-frequency acquisition of resistance to azole antifungals in Candida glabrata.Tandem repeat of a transcriptional enhancer upstream of the sterol 14alpha-demethylase gene (CYP51) in Penicillium digitatum.Specific chromosome alterations in fluconazole-resistant mutants of Candida albicans.Microarray and molecular analyses of the azole resistance mechanism in Candida glabrata oropharyngeal isolates.Endogenous reactive oxygen species is an important mediator of miconazole antifungal effect.Rapid mechanisms for generating genome diversity: whole ploidy shifts, aneuploidy, and loss of heterozygosityMultiple patterns of resistance to fluconazole in Candida glabrata isolates from a patient with oropharyngeal candidiasis receiving head and neck radiationIdentification of four distinct genotypes of Candida dubliniensis and detection of microevolution in vitro and in vivo.Heterologous expression of the Monilinia fructicola CYP51 (MfCYP51) gene in Pichia pastoris confirms the mode of action of the novel fungicide, SYP-Z048.Co-Occurrence of Two Allelic Variants of CYP51 in Erysiphe necator and Their Correlation with Over-Expression for DMI Resistance.Changes in karyotype and azole susceptibility of sequential bloodstream isolates from patients with Candida glabrata candidemia.Monosomy of a specific chromosome determines L-sorbose utilization: a novel regulatory mechanism in Candida albicans.Variation in susceptibility of bloodstream isolates of Candida glabrata to fluconazole according to patient age and geographic location in the United States in 2001 to 2007.Azole Antifungal Resistance in Candida albicans and Emerging Non-albicans Candida Species.Development of proteomics-based fungicides: new strategies for environmentally friendly control of fungal plant diseases.Size Does Matter: Why Polyploid Tumor Cells are Critical Drug Targets in the War on Cancer.Mechanisms of Antifungal Drug Resistance.Fluconazole resistance in Candida species: a current perspective.Amphotericin B- and fluconazole-resistant Candida spp., Aspergillus fumigatus, and other newly emerging pathogenic fungi are susceptible to basic antifungal peptides.Transcriptional analyses of antifungal drug resistance in Candida albicans.Phenotypic switching in Candida glabrata involves phase-specific regulation of the metallothionein gene MT-II and the newly discovered hemolysin gene HLP.Mechanisms of azole resistance in a clinical isolate of Candida tropicalis.
P2860
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P2860
Molecular biological characterization of an azole-resistant Candida glabrata isolate
description
1997 nî lūn-bûn
@nan
1997 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
name
Molecular biological characterization of an azole-resistant Candida glabrata isolate
@ast
Molecular biological characterization of an azole-resistant Candida glabrata isolate
@en
type
label
Molecular biological characterization of an azole-resistant Candida glabrata isolate
@ast
Molecular biological characterization of an azole-resistant Candida glabrata isolate
@en
prefLabel
Molecular biological characterization of an azole-resistant Candida glabrata isolate
@ast
Molecular biological characterization of an azole-resistant Candida glabrata isolate
@en
P2093
P2860
P1476
Molecular biological characterization of an azole-resistant Candida glabrata isolate
@en
P2093
Marichal P
Mose-Larsen P
Timmerman V
Van Broeckhoven C
Vanden Bossche H
Warnock DW
P2860
P304
P407
P577
1997-10-01T00:00:00Z