Newly curated references since 2026-03-07 |
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| Reference | Species | Genes Addressed |
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Abouelenein MG, et al. (2026) Chitosan and dialdehyde starch as macromolecular platforms for sulfa azo dye/selenium nanocomposites: Synthesis, molecular modelling, and dual DNA gyrase-DHFR inhibition. Int J Biol Macromol :150667
| C. albicans | |DFR1 |
Alkhathami F, et al. (2026) Synthesis of Novel Fluorinated Febrifugine Analogs and Evaluation of Their Antifungal Activity. ChemMedChem 21(2):e202500961
| C. albicans | |PRS |
Bhardwaj V, et al. (2026) Histone fold domain positioning dictates cotranslational heterodimeric assembly of paralogous TAF12/TAF12L in Candida albicans. J Biol Chem :111239
| C. albicans | |ADA1 |ADA2 |GCN5 |NGG1 |SGF11 |SGF29 |SGF73 |SPT20 |SPT3 |SPT7 |SPT8 |SUS1 |TAF10 |TAF11 |MORE |
Bolsenbroek A, et al. (2026) The role of OLE2 and POX1-3 in prostaglandin E(2) production and virulence is conserved in Candidozyma (Candida) auris. Microbiol Spectr :e0232325
| C. auris | |OLE2 |POX1-3 |
Davis FA and O'Meara TR (2026) Microbial interactions: Crosstalk in the fungal mycobiome through a novel small protein. Curr Biol 36(1):R25-R27
| C. glabrata | |FUS3 |GPA1 |GPR1 |KSS1 |MFA2 |STE12B |STE6 |TSA1 |YHI1 |
Gouda SA, et al. (2026) Bioprospecting of endophytic fungi from medicinal plants as a source of antimicrobial agents: In vitro evaluation, metabolite profiling, and docking-based elucidation. Fitoterapia 189:107104
| C. albicans | |ERG11 |
Kulig K, et al. (2026) Impact of extracellular vesicles from various species of Candida fungi on the cross-species interactions with human epithelial cells. Arch Microbiol 208(4):181
| C. albicans | |ALS3 |
Lee S, et al. (2026) Genomic Insights into Candidozyma auris Clade II: Comparative Phylogenomics and Structural Validation of Fluconazole Resistance Mechanisms. J Fungi (Basel) 12(1)
| C. auris | |CAN2 |EXO70 |NIC96 |PCK1 |PMA1 |TAC1b |VPS53 |
Moslemi A, et al. (2026) In vitro activity of eight antifungal drugs against clinical and hospital isolates of Candida parapsilosis complex; a multicenter study, 2023-2024. BMC Infect Dis
| C. parapsilosis | |ERG11 |FKS1 |
Pandey AM, et al. (2026) Antifungal Activity of Lipophilic Bisphosphonates. ACS Infect Dis
| C. glabrata | |ERG9 |FKS2 |
Pedras A, et al. (2026) The siderophore transporter Sit1 is involved in the uptake of caspofungin by Candida albicans. Antimicrob Agents Chemother :e0123625
| C. albicans | |SIT1 |
Pellon A, et al. (2026) Fungal infection drives metabolic reprogramming in epithelial cells via aerobic glycolysis and an alternative TCA cycle shunt. Sci Adv 12(6):eaea0405
| C. albicans | |CPH1 |ECE1 |EFG1 |FLO8 |
Qiu L, et al. (2026) Oligonucleotide-Driven Nanoparticle Biosensor for Candida albicans Detection in Vaginal Swabs. ACS Omega 11(3):4420-4429
| C. albicans | |HWP1 |
Shah D, et al. (2026) Glycolysis-dependent sulfur metabolism orchestrates morphological plasticity and virulence in fungi. Elife 14
| C. albicans | |ALS3 |ECE1 |ECM17 |HWP1 |HYR1 |IHD1 |MET10 |MET15 |MET3 |MET32 |PFK1 |RBT1 |SAP6 |
Spera AM, et al. (2026) Nine-Year Surveillance of Candida Bloodstream Infections in a Southern Italian Tertiary Hospital: Species Distribution, Antifungal Resistance, and Stewardship Implications. J Pers Med 16(1)
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Sze JLJ, et al. (2026) Fungal Reactive Oxygen Species Secreted by Candida albicans Induce Barrier Disruption and Cell Death in HaCaT Keratinocytes. J Fungi (Basel) 12(1)
| C. albicans | |CFL11 |
Tome LMR, et al. (2026) Emergence of Candida (Candidozyma) auris in Minas Gerais, Brazil: Genomic Surveillance to Guide Rapid Public Health Responses. Mycoses 69(2):e70146
| C. auris | |ERG11 |
Toth Hervay N, et al. (2026) Catechin Augments the Antifungal Efficacy of Fluconazole Against Candida parapsilosis. Int J Mol Sci 27(2)
| C. parapsilosis | |CDR1 |CDR1B |ERG11 |MDR1 |MRR1 |TAC1 |
Zhou X, et al. (2026) Recurrent mutations in the stress regulator Cap1 reveal a trade-off between azole resistance and oxidative stress response in Candida albicans. PLoS Biol 24(2):e3003631
| C. albicans | |AOX2 |ARE2 |BRG1 |CAP1 |CIP1 |ERG1 |ERG11 |ERG3 |FLU1 |GLR1 |MDR1 |NRG1 |OSH2 |OYE32 |MORE |
Zhao XJ, et al. (1998) Up-regulation of two Candida albicans genes in the rat model of oral candidiasis detected by differential display. Microb Pathog 25(3):121-9
| C. albicans | |ALS3 |ALS3 |