References Added to CGD in the past week, since 2025-05-15

Newly curated references since 2025-05-15

Reference

Species

Genes Addressed

Blair BA, et al. (2025) Forward genetic screen in zebrafish identifies new fungal regulators that limit host-protective Candida-innate immune interaction. mBio :e0052925

C. albicans

|APM1 |BRG1 |CEK1 |MAD2 |NMD5 |PEP8 |RIM101

Cha H, et al. (2025) Signaling pathways governing the pathobiological features and antifungal drug resistance of Candida auris. mBio :e0247523

C. auris

|ACE2 |B9J08_004109 |BCY1 |CDR1 |CYR1 |ERG10 |ERG11 |ERG12 |ERG3 |ERG6 |FKS1 |GPA2 |GPR1 |HMG1 |MORE

Garg R, et al. (2025) A response to iron involving carbon metabolism in the opportunistic fungal pathogen Candida albicans. mSphere :e0004025

C. albicans

|ADH2 |ALD5 |BIO2 |BIO32 |C3_04740C_A |CCP1 |CIT1 |CSM3 |CYC1 |FGR2 |GND1 |ICL1 |KGD2 |LAT1 |MORE

Jia H, et al. (2025) Discovery of novel azole derivatives with benzanilide-containing hydrophobic side chains for the treatment of drug-resistant fungal infections. RSC Adv 15(13):10170-10182

C. albicans

|CDR1 |ERG11

Klimova N, et al. (2025) Regulation of meiotic gene expression is functional in the human fungal pathogen Candida glabrata. FEMS Yeast Res

C. glabrata

|DMC1 |IME1 |REC8 |RED1 |RIM4 |ZCF11

Moustafa SMN, et al. (2025) Synthesis and Evaluating the Anticandidal Activities of Triazino[4,3-a]Quinolinecarboxylate Derivatives: A Promising Approach to Combat Candida Infections. Chem Biodivers :e202500045

C. albicans

|ERG11

C. glabrata

|ERG11

References automatically added to CGD since 2025-05-15
(possibly not yet curated)

Reference

Species

Genes Addressed

Lee S, et al. (2025) Candida albicans biofilm extracellular vesicles deliver candidalysin to epithelial cell membranes and induce host cell responses. Infect Immun 93(5):e0040424

C. albicans

|ECE1

Malwal SR, et al. (2025) Broad-Spectrum Activity and Mechanisms of Action of SQ109 on a Variety of Fungi. ACS Infect Dis

C. glabrata

|NCE103

Miao Y, et al. (2025) Inhibitors of trehalose-6-phosphate synthase activity in fungal pathogens compromise thermal tolerance pathways. bioRxiv

C. albicans

|TPS1

Wang W, et al. (2025) Aneuploidy enables adaptation to brefeldin A in Candida albicans. Front Cell Infect Microbiol 15:1562726

C. albicans

|CDR1 |SEC7

Yue Y, et al. (2025) Pinosylvin and Sanguinarine Combination to Enhance Antifungal Activity against Candida albicans. J Microbiol Biotechnol 35:e2412055

C. albicans

|C1_14510C_A |C4_03220C_A |C4_03260C_A |C7_04350C_A

Zheng L, et al. (2025) Uncovering the connection between tunicamycin-induced respiratory deficiency and reduced fluconazole tolerance in Candida glabrata. Front Microbiol 16:1528341

C. glabrata

|ERG1 |ERG11

CGD Copyright © 2004-2025 The Board of Trustees, Leland Stanford Junior University.
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.