References Added to CGD in the past week, since 2025-04-22

Newly curated references since 2025-04-22

Reference

Species

Genes Addressed

Bai W, et al. (2025) Histone deacetylase Hos1 promotes the homeostasis of Candida albicans cell wall and membrane and its specific inhibitor has an antifungal activity in vivo. Microbiol Res 296:128132

C. albicans

|BIR1 |BMT6 |BMT7 |ERG11 |ERG24 |ERG251 |ERG4 |HOS1 |KTR4 |MNN15 |PMT1 |PMT4 |RHD1 |SMC3

Chang TH, et al. (2025) Transkingdom mechanism of MAMP generation by chitotriosidase feeds oligomeric chitin from fungal pathogens and allergens into TLR2-mediated innate immune sensing. Front Immunol 16:1497174

C. albicans

|SAP2 |SAP6

Chiang HS, et al. (2025) MNN45 is involved in Zcf31-mediated cell surface integrity and chitosan susceptibility in Candida albicans. Med Mycol

C. albicans

|MNN45 |ZCF31

Ottaviano E, et al. (2025) Pilocarpine inhibits Candida albicans SC5314 biofilm maturation by altering lipid, sphingolipid, and protein content. Microbiol Spectr :e0298724

C. albicans

|ALS3 |BGL2 |CHT2 |DEF1 |ERG2 |HYR1 |IHD1 |RFX2

Zhao M, et al. (2025) Functional analysis of Candida albicans Cdr1 through homologous and heterologous expression studies. FEMS Yeast Res

C. albicans

|CDR1 |CDR2 |MDR1

References automatically added to CGD since 2025-04-22
(possibly not yet curated)

Reference

Species

Genes Addressed

Ejaz H, et al. (2025) Investigation of multi-drug resistant Candida auris using species-specific molecular markers in immunocompromised patients from a tertiary care hospital in Quetta, Pakistan. PLoS One 20(4):e0319485

C. albicans

|CR_03640C_A

Hussein HH, et al. (2025) Advance Screening of Bis-azetidinone Derivatives: Synthesis, Spectroscopy, Antioxidant and Antimicrobial Analysis with Molecular Docking Assessment. Curr Org Synth 22(3):396-409

C. albicans

|MTLA2

Mendonca Dias L, et al. (2025) Salivary Proteins-Enhanced Antimicrobial Photodynamic Therapy: Overcoming Three Distinct Cultures of Resistant Mixed Biofilms. J Dent :105778

C. albicans

|HIS3 |HIS5 |SAP1 |SAP2 |SRV2

Wei Y, et al. (2025) Vacuole and mitochondria patch protein Mcp1 of Saccharomyces boulardii impairs the oxidative stress response of Candida albicans by regulating 2-phenylethanol. Microb Cell Fact 24(1):92

C. albicans

|ARO10 |MCP1 |PGK1

Yan L, et al. (2025) Isolation of Fluconazole-Resistant South Asian Clade Candida auris in Beijing, China. Am J Trop Med Hyg

C. auris

|CDR1 |CDR4 |ERG11 |MDR1 |SNQ2

Yang M-C, et al. (2025) Deletion of RAP1 affects iron homeostasis, azole resistance, and virulence in Candida albicans. mSphere :e0015525

C. albicans

|RAP1

Zhu S, et al. (2025) Chemical Composition of the Traditional Chinese Medicine Compound (ICAM), its Antifungal Effects against Candida albicans, and the Underlying Mechanisms: Therapeutic Potential and Safety Evaluation for Vulvovaginal Candidiasis. J Ethnopharmacol :119844

C. albicans

|ALS3 |CDC24 |CEK1 |CSH1 |ECE1 |HGC1 |HST7 |HWP1 |MSB2 |PMT1 |RAS1 |STE11 |TEC1

Ciurea CN, et al. (2024) The influence of farnesol and tyrosol on Candida spp. virulence traits. Germs 14(4):344-351

C. albicans

|ALS3 |HSP70 |SAP2

C. auris

|SAP2

C. parapsilosis

|ALS3

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Permission to use the information contained in this database was given by the researchers/institutes who contributed or published the information. Users of the database are solely responsible for compliance with any copyright restrictions, including those applying to the author abstracts. Documents from this server are provided "AS-IS" without any warranty, expressed or implied.
To cite CGD, please use the following reference: Skrzypek MS, Binkley J, Binkley G, Miyasato SR, Simison M, Sherlock G (2017). The Candida Genome Database (CGD): incorporation of Assembly 22, systematic identifiers and visualization of high throughput sequencing data. Nucleic Acids Res 45 (D1); D592-D596; see How to cite CGD.