References Added to CGD in the past week, since 2025-04-12

Newly curated references since 2025-04-12

Reference

Species

Genes Addressed

Chauhan M, et al. (2025) The Gcn5 lysine acetyltransferase mediates cell wall remodeling, antifungal drug resistance, and virulence of Candida auris. mSphere :e0006925

C. auris

|FKS1 |FKS2 |GCN5

Hu QL, et al. (2025) Mitochondrial phosphate carrier plays an important role in virulence of Candida albicans. Mycology 16(1):369-381

C. albicans

|CEK1 |ECE1 |HWP1 |HYR1 |MIR1 |RIM101

Jiang Q, et al. (2025) V-ATPase contributes to the cariogenicity of Candida albicans- Streptococcus mutans biofilm. NPJ Biofilms Microbiomes 11(1):41

C. albicans

|CUP5 |VMA11 |VMA4

Jin HW and Eom YB (2025) Potent anti-biofilm properties of plumbagin against fluconazole-resistant Candida auris. J Tradit Complement Med 15(2):140-146

C. auris

|CDR1 |ERG11 |KRE6

Ordiales H, et al. (2025) Phosphoglycerate mutase and methionine synthase act as adhesins of Candida albicans to the corneal epithelium, altering their expression during the tissue adhesion process. Exp Eye Res 254:110322

C. albicans

|ALS3 |CYC1 |GPM1 |HWP1 |INT1 |MET6

Zhao F, et al. (2025) The Vps21 signalling pathway regulates white-opaque switching and mating in Candida albicans. Mycology 16(1):357-368

C. albicans

|CEK1 |CEK2 |CPH1 |CST20 |FIG1 |FUS1 |HST7 |MFA1 |PEP12 |PEP7 |STE11 |STE2 |STE3 |VPS21 |MORE

References automatically added to CGD since 2025-04-12
(possibly not yet curated)

Reference

Species

Genes Addressed

Diez A, et al. (2025) A synthetic peptide vaccine induces protective immune responses against Candida albicans infection in immunocompromised mice. Vaccine 53:127102

C. albicans

|ALS3 |HWP1 |MET6

Huang SJ, et al. (2025) Emergence of invasive candidiasis with multiple Candida species exhibiting azole and echinocandin resistance. Front Microbiol 16:1550894

C. albicans

|CDR1 |CDR11 |CDR2 |ERG11 |GSC1 |GSL1 |GSL2

C. glabrata

|CDR1 |ERG11 |FKS1 |FKS2 |PDH1 |PDR1

Kaur E and Acharya V (2025) Computational prediction of Homo sapiens-Candida albicans protein-protein interactions reveal key virulence factors using dual RNA-Seq data analysis. Arch Microbiol 207(5):115

C. albicans

|ERG10 |GFA1 |SOD1 |VPS4

Lee CH, et al. (2025) Identification of chicken-derived antibodies targeting the Candida albicans Als3 protein. Appl Microbiol Biotechnol 109(1):85

C. albicans

|ALS3

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. glabrata

|ERG11

C. albicans

|CYP5 |ERG11

Nejadebrahim S, et al. (2025) Multiple O- and an N-glycosylation of the stalk region of the NK cell activation receptor NKp46 mediates its interaction with the Candida glabrata epithelial adhesin 1. Int J Biol Macromol :143037

C. glabrata

|EPA1

Tasneem U, et al. (2025) Exploring the molecular mechanisms of multiple antifungal drug-resistant genes expression in Candida tropicalis: an emerging threat in vulvovaginal candidiasis patients. Int Microbiol

C. albicans

|CDR1 |CDR11 |CDR2 |ERG1 |ERG11 |GYP2 |MDR1

Tikent A, et al. (2025) Nutritional value antioxidant strength and antimicrobial efficacy of fig pastes from eastern morocco. Sci Rep 15(1):11693

C. albicans

|CYP5 |ERG11

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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.