C. glabrata SNQ2/CAGL0I04862g Literature Guide

Reference	Species	Other Genes Addressed
*Huang SJ, et al.* (2025)** Emergence of invasive candidiasis with multiple Candida species exhibiting azole and echinocandin resistance. Front Microbiol 16:1550894 CGD Papers Entry Pubmed Entry	C. glabrata	\|CDR1 \|ERG11 \|FKS1 \|FKS2 \|PDH1 \|PDR1
*Xia C, et al.* (2025)** Fluconazole-induced changes in azole resistance and biofilm production in Candida glabrata in vitro. Diagn Microbiol Infect Dis 111(3):116683 CGD Papers Entry Pubmed Entry	C. glabrata	\|CDR1 \|ERG11 \|PDH1 \|PDR1
*Zheng L, et al.* (2025)** Uncovering the connection between tunicamycin-induced respiratory deficiency and reduced fluconazole tolerance in Candida glabrata. Front Microbiol 16:1528341 CGD Papers Entry Pubmed Entry	C. glabrata	\|CDR1 \|ERG1 \|ERG11 \|ERG2 \|ERG24 \|ERG25 \|ERG26 \|ERG27 \|ERG28 \|ERG3 \|ERG4 \|ERG5 \|ERG6 \|ERG7 \|MORE
*Cardenas Parra LY, et al.* (2024)** Molecular Evaluation of the mRNA Expression of the ERG11, ERG3, CgCDR1, and CgSNQ2 Genes Linked to Fluconazole Resistance in Candida glabrata in a Colombian Population. J Fungi (Basel) 10(7) CGD Papers Entry Pubmed Entry	C. glabrata	\|CDR1 \|ERG11 \|ERG3
*Chow EWL, et al.* (2024)** Genome-wide profiling of piggyBac transposon insertion mutants reveals loss of the F(1) F(0) ATPase complex causes fluconazole resistance in Candida glabrata. Mol Microbiol CGD Papers Entry Pubmed Entry Web Supplement Data	C. glabrata	\|ATP22 \|ATP3 \|CDR1 \|PDH1 \|PDR1
*Elias D, et al.* (2024)** Changes in Ergosterol Biosynthesis Alter the Response to Cycloheximide, 4-Nitroquinoline-N-Oxide, Weak Organic Acids, and Virulence in Candida glabrata. J Fungi (Basel) 10(10) CGD Papers Entry Pubmed Entry	C. glabrata	\|CDR1 \|ERG6 \|PDH1 \|PDR1 \|PDR12
*Lopez-Marmolejo AL, et al.* (2024)** Niche-specific microevolution of Candida glabrata (Nakaseomyces glabrata) during an infection. Fungal Genet Biol :103891 CGD Papers Entry Pubmed Entry	C. glabrata	\|CDR1 \|PDH1 \|PDR1
*Saha D, et al.* (2024)** Candida glabrata maintains two HAP1 ohnologs, HAP1A and HAP1B, for distinct roles in ergosterol gene regulation to mediate sterol homeostasis under azole and hypoxic conditions. mSphere :e0052424 CGD Papers Entry Pubmed Entry	C. glabrata	\|CDR1 \|CYC1 \|ERG11 \|ERG2 \|ERG3 \|ERG5 \|HAP1A \|HAP1B \|PDH1 \|PDR1
*Zhao JT, et al.* (2022)** FLO8 deletion leads to decreased adhesion and virulence with downregulated expression of EPA1, EPA6, and EPA7 in Candida glabrata Braz J Microbiol CGD Papers Entry Pubmed Entry	C. albicans	\|CDR1 \|CDR11 \|CDR2 \|FLO8
C. glabrata	\|CDR1 \|EPA1 \|EPA6 \|EPA7 \|FLO8 \|PDH1
*Navarro-Rodriguez P, et al.* (2019)** Expression of ERG11 and efflux pump genes CDR1, CDR2 and SNQ2 in voriconazole susceptible and resistant Candida glabrata strains. Med Mycol CGD Papers Entry Pubmed Entry	C. glabrata	\|CDR1 \|ERG11 \|PDH1
*Goemaere B, et al.* (2018)** Clonal Spread of Candida glabrata Bloodstream Isolates and Fluconazole Resistance Affected by Prolonged Exposure: a 12-Year Single-Center Study in Belgium. Antimicrob Agents Chemother 62(8) CGD Papers Entry Pubmed Entry	C. glabrata	\|CDR1 \|FKS1 \|FKS2 \|PDH1 \|PDR1
*Culakova H, et al.* (2015)** Stress response and expression of fluconazole resistance associated genes in the pathogenic yeast Candida glabrata deleted in the CgPDR16 gene. Microbiol Res 174:17-23 CGD Papers Entry Pubmed Entry Reference LINKOUT	C. glabrata	\|CDR1 \|ERG11 \|PDH1 \|PDR1 \|PDR16
*Li H, et al.* (2015)** Resistance reversal induced by a combination of fluconazole and tacrolimus (FK506) in Candida glabrata. J Med Microbiol 64(Pt 1):44-52 CGD Papers Entry Pubmed Entry	C. glabrata	\|CDR1 \|ERG11 \|PDH1
*Li QQ, et al.* (2012)** Evaluation of reference genes for real-time quantitative PCR studies in Candida glabrata following azole treatment. BMC Mol Biol 13:22 CGD Papers Entry Pubmed Entry Reference LINKOUT	C. glabrata	\|ACT1 \|ERG10 \|ERG11 \|ERG2 \|ERG3 \|ERG4 \|PDH1 \|PDR1 \|PGK1 \|YOR1
*Caudle KE, et al.* (2011)** Genomewide expression profile analysis of the Candida glabrata Pdr1 regulon. Eukaryot Cell 10(3):373-83 CGD Papers Entry Pubmed Entry Reference LINKOUT Data	C. glabrata	\|ATF2 \|CAGL0A01001g \|CAGL0A02134g \|CAGL0A02673g \|CAGL0A02882g \|CAGL0A03608g \|CAGL0A04323g \|CAGL0A04697g \|CAGL0A04807g \|CAGL0C01749g \|CAGL0C03916g \|CAGL0E00649g \|CAGL0E01441g \|CAGL0E01617g \|MORE
*Ferrari S, et al.* (2011)** Loss of mitochondrial functions associated with azole resistance in Candida glabrata results in enhanced virulence in mice. Antimicrob Agents Chemother 55(5):1852-60 CGD Papers Entry Pubmed Entry Reference LINKOUT Data	C. glabrata	\|ATP1 \|ATP6 \|ATP9 \|CAGL0D06006g \|CAGL0F04719g \|CAGL0G02717g \|CAGL0I06809g \|CDR1 \|COX1 \|COX2 \|COX6 \|FCY2 \|GCV1 \|GDB1 \|MORE
*Kuo D, et al.* (2010)** Evolutionary divergence in the fungal response to fluconazole revealed by soft clustering. Genome Biol 11(7):R77 CGD Papers Entry Pubmed Entry Reference LINKOUT Reference LINKOUT Reference LINKOUT Data	C. glabrata	\|AUS1 \|CAGL0B01012g \|CAGL0K03355g \|CAGL0L02629g \|DOS1 \|LYS12 \|MET3
*Tsai HF, et al.* (2010)** Microarray and molecular analyses of the azole resistance mechanism in Candida glabrata oropharyngeal isolates. Antimicrob Agents Chemother 54(8):3308-17 CGD Papers Entry Pubmed Entry Reference LINKOUT Data	C. glabrata	\|ATF2 \|CAGL0F07777g \|CAGL0G01122g \|CAGL0H02101g \|CAGL0H05137g \|CAGL0K04301g \|CAGL0M08426g \|CAGL0M12925g \|CAGL0M14091g \|CDR1 \|ERG4 \|GIN3 \|HFD1 \|MEC3 \|MORE
*Ferrari S, et al.* (2009)** Gain of function mutations in CgPDR1 of Candida glabrata not only mediate antifungal resistance but also enhance virulence. PLoS Pathog 5(1):e1000268 CGD Papers Entry Pubmed Entry Reference LINKOUT Reference LINKOUT	C. glabrata	\|CDR1 \|PDH1 \|PDR1
*Sanguinetti M, et al.* (2005)** Mechanisms of azole resistance in clinical isolates of Candida glabrata collected during a hospital survey of antifungal resistance. Antimicrob Agents Chemother 49(2):668-79 CGD Papers Entry Pubmed Entry Reference LINKOUT Reference LINKOUT Reference LINKOUT	C. glabrata	\|CDR1 \|ERG11 \|PDH1
*Sanglard D, et al.* (2001)** Role of ATP-binding-cassette transporter genes in high-frequency acquisition of resistance to azole antifungals in Candida glabrata. Antimicrob Agents Chemother 45(4):1174-83 CGD Papers Entry Pubmed Entry Reference LINKOUT	C. glabrata	\|CDR1 \|PDH1 \|URA3

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