References Added to CGD in the past week, since 2025年10月16日

Newly curated references since 2025年10月16日
Reference	Species	Genes Addressed
*Carolus H, et al.* (2025)** Epistasis at the cell surface: what is the role of Erg3 loss-of-function in acquired echinocandin resistance? mBio :e0141925 CGD Papers Entry Pubmed Entry	C. auris	\|ERG3
C. glabrata	\|ERG3 \|FKS2
*Filho CDSMB, et al.* (2025)** Synthesis and Antimicrobial Evaluation of Chroman-4-One and Homoisoflavonoid Derivatives. Molecules 30(17) CGD Papers Entry Pubmed Entry	C. albicans	\|APR1 \|ARA1 \|BMH1 \|CAR1 \|CDC28 \|CEK2 \|CYS4 \|ERG1 \|FBA1 \|GCY1 \|GRE3 \|HOG1 \|LTP1 \|MKC1
*Gutzmann DJ, et al.* (2025)** Cwh8 moonlights as a farnesyl pyrophosphate phosphatase and is essential for farnesol biosynthesis in Candida albicans. MBio :e0229025 CGD Papers Entry Pubmed Entry Web Supplement Data	C. albicans	\|ALD6 \|ARE2 \|ARG11 \|BIO2 \|BTA1 \|CCC1 \|CDR1 \|CEK2 \|CRH11 \|CWH8 \|DAL52 \|DIP5 \|DPP1 \|DPP2 \|MORE
*Ling Z, et al.* (2025)** Gut mycobiota dysbiosis and systemic immune dysfunction in Chinese schizophrenia patients with metabolic syndrome. Front Immunol 16:1652633 CGD Papers Entry Pubmed Entry	C. albicans	\|ITS1
*Martins NRC, et al.* (2025)** Antifungal profile of menadione tethered to 1H-1,2,3-triazolyl-selenoester: synthesis, in vitro and in silico analyses. Bioorg Med Chem 130:118380 CGD Papers Entry Pubmed Entry	C. glabrata	\|ERG11 \|HSC82
*Morales-Lopez S, et al.* (2025)** HWP1 Gene Sequence Diversity and Antifungal Susceptibility Patterns in Colombian Vulvovaginal Isolates of the Candida albicans Species Complex. Int J Microbiol 2025:8507361 CGD Papers Entry Pubmed Entry	C. dubliniensis	\|HWP1
C. parapsilosis	\|HWP1
C. albicans	\|HWP1
*Palladini G, et al.* (2025)** Inter-Hospital Spread of Fluconazole-Resistant C. parapsilosis in Northern Italy: Insights Into Clonal Distribution, Resistance Mechanisms and Biofilm Production. Mycoses 68(9):e70111 CGD Papers Entry Pubmed Entry	C. parapsilosis	\|ERG11 \|ITS1 \|ITS2
*Pasman R, et al.* (2025)** Candida albicans and Staphylococcus aureus reciprocally promote their virulence factor secretion and pro-inflammatory effects. Front Cell Infect Microbiol 15:1629373 CGD Papers Entry Pubmed Entry	C. albicans	\|ALS1 \|ALS3 \|CRH11 \|CSA2 \|PLB1 \|RBE1 \|RBT4 \|SAP4 \|SAP5 \|SAP6 \|SAP9 \|SOD5 \|UTR2 \|XOG1
*Phan-Canh T, et al.* (2025)** White-Brown switching controls phenotypic plasticity and virulence of Candida auris. Cell Rep 44(7):115976 CGD Papers Entry Pubmed Entry Web Supplement Data	C. auris	\|B9J08_004111 \|B9J08_004173 \|CRZ2 \|EFG1 \|MSN4 \|RCA1 \|WOR1
*Qin Y, et al.* (2025)** Transcription factor Hap2p regulates antioxidant stress responses to maintain miconazole resistance in Candida albicans. Mycology 16(3):1386-1399 CGD Papers Entry Pubmed Entry	C. albicans	\|CDR1 \|ERG11 \|ERG3 \|HAP2 \|MDR1
*Wang H, et al.* (2025)** Ire1 inhibitors attenuate Candida albicans pathogenicity and demonstrate potential for application in antifungal therapy. Front Microbiol 16:1648467 CGD Papers Entry Pubmed Entry	C. albicans	\|ALS1 \|ALS3 \|CYR1 \|HAC1 \|HGC1 \|HWP1 \|IRE1 \|KAR2 \|SEC61 \|YSY6
*Wang J, et al.* (2025)** Moh1 coordinates ROS-dependent apoptosis in genotoxic stress response of Candida albicans. Fungal Biol 129(6):101642 CGD Papers Entry Pubmed Entry	C. albicans	\|BCY1 \|C1_05830W_A \|C1_12830C_A \|C2_08100W_A \|C3_01440C_A \|C3_06630W_A \|CR_07260C_A \|DLH1 \|KTI11 \|MCA1 \|MOH1 \|NMA111 \|NRG2 \|RAS1 \|MORE
*Wang Y, et al.* (2025)** Role and mechanism of hexyl-aminolevulinate ethosome-mediated antimicrobial photodynamic therapy in reversing fluconazole resistance in Nakaseomyces glabrata (Candida glabrata). J Med Microbiol 74(9) CGD Papers Entry Pubmed Entry	C. glabrata	\|CDR1 \|EPA1 \|ERG11 \|PDR1
*Wen J, et al.* (2025)** Long-term antifungal drug-delivery denture materials with plasma-initiated surface functionalization. Colloids Surf B Biointerfaces 256(Pt 2):115077 CGD Papers Entry Pubmed Entry	C. albicans	\|UME6

References automatically added to CGD since 2025年10月16日 (possibly not yet curated)
Reference	Species	Genes Addressed
*Alruhaili MH, et al.* (2025)** Green synthesis of silver nanoparticles from Bacillus subtilis-mediated feather hydrolysate: antimicrobial, larvicidal against culex pipiens, and anticancer activities. Bioresour Bioprocess 12(1):116 CGD Papers Entry Pubmed Entry	C. albicans	\|MTLALPHA1
*Denning-Jannace CA, et al.* (2025)** Leveraging Vulnerabilities in Copper Trafficking for Synergistic Antifungal Activity. ACS Chem Biol CGD Papers Entry Pubmed Entry	C. albicans	\|YHB1 \|YHB4
*Feng J, et al.* (2025)** Dietary tannic acid promotes intestinal clearance of C. albicans by cross-linking hyphal chitosan. PLoS Pathog 21(10):e1013596 CGD Papers Entry Pubmed Entry	C. albicans	\|CDA2
*Fu C, et al.* (2025)** Expansion of the functional genomics GRACE library reveals genes relevant for temperature-dependent fitness in Candida albicans. PLoS Biol 23(10):e3003409 CGD Papers Entry Pubmed Entry	C. albicans	\|GAR1
*Gao Z, et al.* (2025)** Design, synthesis, and antifungal activity of novel amide imidazole CYP51 inhibitors with aromatic fused ring hydrophobic side chains. RSC Med Chem CGD Papers Entry Pubmed Entry	C. albicans	\|CYP5 \|ERG11
*Hodhod MS, et al.* (2025)** Unveiling the Metabolites and Biological Characteristics of Swampomyces armeniacus from Red Sea Mangroves Ecosystems. Curr Microbiol 82(12):558 CGD Papers Entry Pubmed Entry	C. albicans	\|TERT
*Jiang J, et al.* (2025)** Molecular landscape of the fungal plasma membrane and implications for antifungal action. Nat Commun 16(1):9125 CGD Papers Entry Pubmed Entry	C. glabrata	\|PMA1
*Kauser S, et al.* (2025)** Exploring fungal survival mechanisms: toward next-generation antifungal therapies against Candida spp. Arch Microbiol 207(11):302 CGD Papers Entry Pubmed Entry	C. albicans	\|HSP90
*Li S, et al.* (2025)** Study on the impact of biofilm formation by Candida albicans in recurrent vulvovaginal candidiasis on drug susceptibility. Front Cell Infect Microbiol 15:1663099 CGD Papers Entry Pubmed Entry	C. albicans	\|CDR1 \|CDR11 \|CDR2 \|GYP2 \|MDR1
*Liu M, et al.* (2025)** NKp46 recognizes the hyphal form of Candida albicans and mediates protective antifungal immunity. iScience 28(10):113556 CGD Papers Entry Pubmed Entry	C. albicans	\|NCR1
*Mahmoodi M, et al.* (2025)** Investigating the presence of phospholipase and secreted aspartyle proteinase gene family in different genotypes of Candida albicans species. BMC Res Notes 18(1):431 CGD Papers Entry Pubmed Entry	C. albicans	\|PLB1 \|PLB2 \|SAP1 \|SAP2 \|SAP4 \|SAP7 \|SAP8
*Tavares ER, et al.* (2025)** Development of Melting-Curve-Based Real-Time PCR for Differentiating Medically Important Candida Species. Int J Mol Sci 26(19) CGD Papers Entry Pubmed Entry	C. albicans	\|ITS1
C. parapsilosis	\|ITS1
C. auris	\|ITS1
*Vera-Salazar LA, et al.* (2025)** Abf1 participates in the response to DNA damage and replicative stress in Candida glabrata (Nakaseomyces glabratus). Fungal Genet Biol :104041 CGD Papers Entry Pubmed Entry	C. glabrata	\|ABF1
*Zhang L, et al.* (2025)** Proteomics and beta-hydroxybutyrylome reveal the novel mechanisms underlying fluconazole resistance in Candida albicans. Future Microbiol :1-11 CGD Papers Entry Pubmed Entry	C. albicans	\|HDA1 \|RTT109
*Zhao H, et al.* (2025)** Corrigendum to "Effects of Ire1 gene on virulence and pathogenicity of Candida albicans". Open Life Sci 20(1):20250002 CGD Papers Entry Pubmed Entry	C. albicans	\|IRE1

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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.

References Added to CGD in the past week, since 2025年10月16日

Newly curated references since 2025年10月16日

References automatically added to CGD since 2025年10月16日 (possibly not yet curated)

References automatically added to CGD since 2025年10月16日
(possibly not yet curated)