| Reference | Species | Genes Addressed |
|---|
Buonanno A, et al. (2025) The Biotherapeutic Potential of a Novel Probiotic Kluyveromyces marxianus Isolated from a Sourdough Starter Against Vaginal Candida albicans Strains. J Fungi (Basel) 11(2)
CGD Papers Entry Pubmed Entry | C. albicans | |SAP2 |SAP6 |
Karami-Feli M, et al. (2025) Antifungal Potential of Streptomyces-Derived Metabolites Against Fluconazole-Resistant Oral Candida albicans: In vitro Evaluation and Mechanistic Insights. Iran Biomed J
CGD Papers Entry Pubmed Entry | C. albicans | |ERG11 |HWP1 |SAP1 |SAP2 |
Shaban S, et al. (2025) Anti-virulence and anti-efflux pump activity of synthetic defensins and histatin in Candida auris. Microb Pathog :107644
CGD Papers Entry Pubmed Entry | C. auris | |CDR1 |CDR2 |MDR1 |PGA26 |PGA52 |SAP3 |SNQ2 |
Esfahani A, et al. (2024) Up-regulation of CDR1 and MDR1 efflux pump genes and fluconazole resistance are involved in recurrence in Candida albicans-induced vulvovaginal candidiasis. Diagn Microbiol Infect Dis 109(1):116242
CGD Papers Entry Pubmed Entry | C. albicans | |CDR1 |MDR1 |
Khodavandi P, et al. (2024) Menthol as an effective inhibitor of quorum sensing and biofilm formation in Candida albicans and Candida glabrata by targeting the transcriptional repressor TUP1. Mol Biol Rep 51(1):1114
CGD Papers Entry Pubmed Entry | C. albicans | |TUP1 |
| C. glabrata | |TUP1 |
Ramos LS, et al. (2024) Candida spp. isolated from recreational coastal waters of Rio de Janeiro - Brazil: Focus on antifungal resistance and virulence attributes. Sci Total Environ :174662
CGD Papers Entry Pubmed Entry | C. parapsilosis | |ITS1 |ITS2 |
Zeitoun H, et al. (2024) Elucidation of the mechanisms of fluconazole resistance and repurposing treatment options against urinary Candida spp. isolated from hospitalized patients in Alexandria, Egypt. BMC Microbiol 24(1):383
CGD Papers Entry Pubmed Entry | C. albicans | |CDR1 |CDR2 |ERG11 |MDR1 |
| C. glabrata | |CDR1 |ERG11 |PDH1 |
Hirayasu K, et al. (2016) Microbially cleaved immunoglobulins are sensed by the innate immune receptor LILRA2. Nat Microbiol 1(6):16054
CGD Papers Entry Pubmed Entry |
Whiley RA, et al. (2012) Candida albicans strain-dependent modulation of pro-inflammatory cytokine release by in vitro oral and vaginal mucosal models. Cytokine 57(1):89-97
CGD Papers Entry Pubmed Entry Reference LINKOUT |
Mane A, et al. (2011) Adherence to buccal epithelial cells, enzymatic and hemolytic activities of Candida isolates from HIV-infected individuals. Med Mycol 49(5):548-51
CGD Papers Entry Pubmed Entry Reference LINKOUT |
Marcos-Arias C, et al. (2011) Phospholipase and proteinase activities of Candida isolates from denture wearers. Mycoses 54(4):e10-6
CGD Papers Entry Pubmed Entry |
Mores AU, et al. (2011) Enhancement of secretory aspartyl protease production in biofilms of Candida albicans exposed to sub-inhibitory concentrations of fluconazole. Mycoses 54(3):195-201
CGD Papers Entry Pubmed Entry |
Parnanen P, et al. (2011) The effects of Candida proteinases on human proMMP-9, TIMP-1 and TIMP-2. Mycoses 54(4):325-30
CGD Papers Entry Pubmed Entry |
Rehani S, et al. (2011) Spectrophotometric analysis of the expression of secreted aspartyl proteinases from Candida in leukoplakia and oral squamous cell carcinoma. J Oral Sci 53(4):421-5
CGD Papers Entry Pubmed Entry Reference LINKOUT |
Sacristan B, et al. (2011) Aspartyl proteinase, phospholipase, hemolytic activities and biofilm production of Candida albicans isolated from bronchial aspirates of ICU patients. Med Mycol 49(1):94-7
CGD Papers Entry Pubmed Entry Reference LINKOUT |
Costa CR, et al. (2010) Differences in exoenzyme production and adherence ability of Candida spp. isolates from catheter, blood and oral cavity. Rev Inst Med Trop Sao Paulo 52(3):139-43
CGD Papers Entry Pubmed Entry Reference LINKOUT |
Costa CR, et al. (2010) Effects of antifungal agents in sap activity of Candida albicans isolates. Mycopathologia 169(2):91-8
CGD Papers Entry Pubmed Entry Reference LINKOUT Reference LINKOUT | C. albicans | |SAP1 |SAP1 |SAP2 |SAP2 |SAP3 |SAP3 |SAP4 |SAP4 |SAP5 |SAP5 |SAP6 |SAP6 |SAP7 |SAP7 |
Costa E, et al. (2010) Potential virulence factors of Candida spp. isolated from clinical and food sources. J Hosp Infect 75(3):240-1
CGD Papers Entry Pubmed Entry Reference LINKOUT |
Peters BM, et al. (2010) Protection of the oral mucosa by salivary histatin-5 against Candida albicans in an ex vivo murine model of oral infection. FEMS Yeast Res 10(5):597-604
CGD Papers Entry Pubmed Entry Reference LINKOUT |
Rajendran R, et al. (2010) Hydrolytic enzyme production is associated with Candida albicans biofilm formation from patients with type 1 diabetes. Mycopathologia 170(4):229-35
CGD Papers Entry Pubmed Entry Reference LINKOUT |
Rapala-Kozik M, et al. (2010) Degradation of human kininogens with the release of kinin peptides by extracellular proteinases of Candida spp. Biol Chem 391(7):823-30
CGD Papers Entry Pubmed Entry Reference LINKOUT Reference LINKOUT |
Yenisehirli G, et al. (2010) [Phospholipase, proteinase and hemolytic activities of Candida albicans isolates obtained from clinical specimens]. Mikrobiyol Bul 44(1):71-7
CGD Papers Entry Pubmed Entry |
Antony G, et al. (2009) Effect of phenotypic switching on expression of virulence factors by Candida albicans causing candidiasis in diabetic patients. Rev Iberoam Micol 26(3):202-5
CGD Papers Entry Pubmed Entry Reference LINKOUT |
Arsovic NA, et al. (2009) Protease activities of Candida spp. isolated from otitis externa: preliminary result. Acta Chir Iugosl 56(3):113-6
CGD Papers Entry Pubmed Entry |
Hua X, et al. (2009) Morphogenic and genetic differences between Candida albicans strains are associated with keratomycosis virulence. Mol Vis 15:1476-84
CGD Papers Entry Pubmed Entry | C. albicans | |AAP1 |AAP1 |AAT21 |AAT21 |ACB1 |ACB1 |ACO2 |ACO2 |ADAEC |ADAEC |AHP1 |AHP1 |ALD6 |ALD6 |MORE |
Patel M, et al. (2009) The effect of Dodonaea viscosa var. angustifolia on Candida albicans proteinase and phospholipase production and adherence to oral epithelial cells. J Ethnopharmacol 124(3):562-5
CGD Papers Entry Pubmed Entry Reference LINKOUT |
Vinitha M and Ballal M (2009) Activity of proteinase, phospholipase and biofilm as virulence markers in Candida species isolated from haematogenous samples. J Hosp Infect 73(1):94-5
CGD Papers Entry Pubmed Entry |
da Costa KR, et al. (2009) Candida albicans and Candida tropicalis in oral candidosis: quantitative analysis, exoenzyme activity, and antifungal drug sensitivity. Mycopathologia 167(2):73-9
CGD Papers Entry Pubmed Entry Reference LINKOUT |
Barelle CJ, et al. (2008) Azole antifungals induce up-regulation of SAP4, SAP5 and SAP6 secreted proteinase genes in filamentous Candida albicans cells in vitro and in vivo. J Antimicrob Chemother 61(2):315-22
CGD Papers Entry Pubmed Entry Reference LINKOUT Reference LINKOUT | C. albicans | |ARO10 |ARO10 |ERG10 |ERG10 |ERG11 |ERG11 |ERG13 |ERG13 |ERG2 |ERG2 |ERG24 |ERG24 |ERG25 |ERG25 |MORE |
Barros LM, et al. (2008) Genetic diversity and exoenzyme activities of Candida albicans and Candida dubliniensis isolated from the oral cavity of Brazilian periodontal patients. Arch Oral Biol 53(12):1172-8
CGD Papers Entry Pubmed Entry Reference LINKOUT |