References Added to CGD in the past week, since 2026-02-15

Newly curated references since 2026-02-15

Reference

Species

Genes Addressed

Chou YP, et al. (2026) The histone deubiquitinase Ubp10 modulates stress response, drug resistance, and virulence in Candida glabrata. Med Mycol

C. glabrata

|CDR1 |CTA1 |ERG11 |ERG6 |FKS1 |FKS2 |GPX2 |SOD1 |UBP10 |UBP8

Peterson MR, et al. (2026) Regulation of hyphal development by protein kinase A, stress-responsive MAP kinases, and calcineurin via transcription factors Sfl1 and Sfl2 in Candida albicans. mSphere :e0068925

C. albicans

|ALS3 |CEK1 |EFG1 |HOG1 |NRG1 |PTP2 |PTP3 |SFL1 |SFL2 |TPK2 |UME6

Chitharagi VB, et al. (2025) Fluconazole resistance among Candida species with special emphasis on ERG11 gene mutations among Candida tropicalis. Front Fungal Biol 6:1695271

C. albicans

|ERG11

Duncan RM, et al. (2025) Understanding Heterogeneity and Tolerance of Dual Candida albicans-Staphylococcus aureus Biofilms to Cold Atmospheric Plasma and Antimicrobial Combinations. APMIS 133(12):e70119

Mundhe AK and Rajkumari R (2025) Dual inhibition of ERG11 and CDR2 in drug-resistant Candida albicans by Indian phytochemicals: a combined in silico-in vitro approach. Front Pharmacol 16:1687392

C. albicans

|CDR2 |ERG11

Perera M, et al. (2025) Emerging fluconazole-resistant Candida parapsilosis in Australia: a case cluster and insights into the genetic diversity of this species. Front Microbiol 16:1742871

C. parapsilosis

|ERG11 |TAC1

Rodriguez-Erenaga O, et al. (2025) Evaluation of the Ca37 Monoclonal Antibody Targeting Alcohol Dehydrogenase Against Candidozyma auris (Candida auris) In Vitro and In Vivo. J Fungi (Basel) 11(12)

C. albicans

|ADH1

Thapa R, et al. (2025) The fungal peptide toxin candidalysin induces distinct membrane repair mechanisms compared to bacterial pore-forming toxins. Cell Death Discov

C. albicans

|ECE1

Waman MN, et al. (2025) Targeting fungal biofilms: Design, synthesis and evaluation of pyrrolidino-hydrazinyl-thiazole derivatives via in vitro, transcriptomic and in silico approaches. Bioorg Chem 169:109428

C. albicans

|ALS3 |EFG1 |HWP1 |LIP1 |RAS1 |SAP1 |TUP1

Wang Y, et al. (2025) Zinc deficiency reverses biofilm azole resistance in Candida albicans. Int J Antimicrob Agents :107695

C. albicans

|BRG1 |CDR1 |CDR2 |CSR1 |MDR1 |NDT80 |ROB1 |TEC1

Wangsanut T, et al. (2025) Regulatory functions of AcuK and AcuM transcription factors in fungal metabolic adaptation, stress response, and virulence. Front Cell Infect Microbiol 15:1717070

C. albicans

|CWT1 |YHB1 |YHB4

Xia T, et al. (2025) D-lactic acid inhibits Candida albicans associated with vulvovaginal candidiasis: in vitro and in vivo effects and underlying mechanisms. BMC Microbiol 26(1):95

C. albicans

|ALS1 |ECE1 |PHR2 |TEC1

Zwane NP, et al. (2025) Cold Atmospheric Plasma (CAP) shows strain-dependence against Candida Albicans growth on titanium. J Stomatol Oral Maxillofac Surg :102698

References automatically added to CGD since 2026-02-15
(possibly not yet curated)

Reference

Species

Genes Addressed

Chen J, et al. (2026) Exporter Mdr1 as an importer is an achilles' heel for combating drug-resistant Candida. Cell Chem Biol 33(2):227-240.e6

C. albicans

|GYP2 |MDR1

Kang YJ, et al. (2026) A retrospective metatranscriptomic study of respiratory pathogens causing adult community-acquired pneumonia in Wuxi, China, before the pandemic. PeerJ 14:e20774

C. albicans

|SAP1 |SAP2 |SRV2

Kaviraj M and Jayappriyan KR (2026) Evaluation of Umbelliferone's antifungal efficacy against multidrug-resistant Candida albicans: A combined in-vitro and in-silico approach investigating mechanisms of action and therapeutic potential. Microb Pathog 213:108373

C. albicans

|DFR1 |ERG11

Lange T, et al. (2026) "Should I stay or should I go"-a kinase delays escape of Candida glabrata from macrophages. mBio :e0388525

C. albicans

|KSP1

Malavia-Jones D, et al. (2026) Compromising UPD-sugar nucleotide biosynthesis attenuates Candida albicans viability, virulence and drug sensitivity. Cell Surf 15:100170

C. albicans

|AGM1 |GFA1 |GNA1 |PGI1 |PMI1 |PMM1 |PSA2 |SRB1 |UAP1 |UGP1

Rovira I, et al. (2026) A Calcineurin Inhibitor as an Enhancer of Candida Susceptibility to Anidulafungin. ACS Omega 11(5):8315-8322

C. glabrata

|FKS1

C. parapsilosis

|FKS1

C. albicans

|GSC1 |GSL1

C. auris

|FKS1

Thielemann N, et al. (2026) Mycobiome dysbiosis and genetic predisposition to elevated IL-17A contribute to fibrosis in MASLD. JHEP Rep 8(3):101721

C. albicans

|ITS1

Uludag N, et al. (2026) A Synthesis of Novel Tetracyclic Azocino[4,3-b]Indole Framework: Combined Spectroscopic, DFT, Molecular Docking, and ADMET Analysis. Chem Biodivers 23(2):e03759

C. glabrata

|ERG11

Zhang Z, et al. (2026) Persistence and spread of fluconazole-resistant Candida parapsilosis clinical isolates associated with increased ERG11 copies in Qatar. Microb Genom 12(2)

C. parapsilosis

|CDR1B |EFG1 |ERG11 |ERG6 |TAC1

Button EL, et al. (2025) The 1 -Cys peroxiredoxin, PRDX-6, suppresses an NHR-49-dependent pro-survival response, including the Flavin monooxygenase, FMO-2, that protects against fungal and bacterial infection. Redox Biol 91:103992

C. albicans

|FMO2

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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.