| Reference | Species | Other Genes Addressed |
|---|
Junier A, et al. (2022) Bypass of Dfi1 Regulation of Candida albicans Invasive Filamentation by Iron Limitation mSphere
CGD Papers Entry Pubmed Entry | C. albicans | |BMT9 |CFL1 |CFL2 |CFL5 |CZF1 |DFI1 |FET31 |FTR1 |GDH3 |MRS4 |OPT1 |SEF1 |SOD4 |
Chen C, et al. (2011) An iron homeostasis regulatory circuit with reciprocal roles in Candida albicans commensalism and pathogenesis. Cell Host Microbe 10(2):118-35
CGD Papers Entry Pubmed Entry Data | C. albicans | |AAT1 |AAT1 |ACO1 |ACO1 |AFG1 |AFG1 |AGP2 |AGP2 |ATM1 |ATM1 |ATS1 |ATS1 |BMT9 |BMT9 |MORE |
Ding C, et al. (2011) Conserved and divergent roles of Bcr1 and CFEM proteins in Candida parapsilosis and Candida albicans. PLoS One 6(12):e28151
CGD Papers Entry Pubmed Entry Reference LINKOUT Reference LINKOUT Reference LINKOUT Data | C. albicans | |BCR1 |BCR1 |CSA2 |CSA2 |PGA10 |PGA10 |PGA7 |PGA7 |RBT5 |RBT5 |
| C. parapsilosis | |ACB1 |ADH1 |AIP2 |AOX2 |APC1 |APE3 |ARG1 |ARG8 |ARO1 |ARO2 |ARO3 |ARO4 |ASN1 |ATF1 |MORE |
Perez A, et al. (2011) Some biological features of Candida albicans mutants for genes coding fungal proteins containing the CFEM domain. FEMS Yeast Res 11(3):273-84
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |PGA10 |PGA10 |RBT5 |RBT5 |
Singh RP, et al. (2011) Cap2-HAP complex is a critical transcriptional regulator that has dual but contrasting roles in regulation of iron homeostasis in Candida albicans. J Biol Chem 286(28):25154-70
CGD Papers Entry Pubmed Entry Reference LINKOUT Data | C. albicans | |AAT1 |AAT1 |ABP140 |ABP140 |ACB1 |ACB1 |ACC1 |ACC1 |ACO1 |ACO1 |ACP12 |ACT1 |ACT1 |ADH5 |MORE |
| C. glabrata | |AP1 |AP5 |CAD1 |CST6 |GCN4 |HAC1 |MET28 |MET4 |SKO1 |YAP3 |YAP3b |YAP6 |YAP7 |
Hua X, et al. (2009) Morphogenic and genetic differences between Candida albicans strains are associated with keratomycosis virulence. Mol Vis 15:1476-84
CGD Papers Entry Pubmed Entry | C. albicans | |AAP1 |AAP1 |AAT21 |AAT21 |ACB1 |ACB1 |ACO2 |ACO2 |ADAEC |ADAEC |AHP1 |AHP1 |ALD6 |ALD6 |MORE |
Nobile CJ, et al. (2008) Candida albicans transcription factor Rim101 mediates pathogenic interactions through cell wall functions. Cell Microbiol 10(11):2180-96
CGD Papers Entry Pubmed Entry Reference LINKOUT Data | C. albicans | |ALS3 |ALS3 |CFL11 |CFL11 |CFL2 |CFL2 |CHT2 |CHT2 |CSA2 |CSA2 |ECE1 |ECE1 |ENA2 |ENA2 |MORE |
Hromatka BS, et al. (2005) Transcriptional response of Candida albicans to nitric oxide and the role of the YHB1 gene in nitrosative stress and virulence. Mol Biol Cell 16(10):4814-26
CGD Papers Entry Pubmed Entry Reference LINKOUT Data | C. albicans | |ADE13 |ADE13 |ADH3 |ADH3 |ALI1 |ALI1 |AOX1 |AOX1 |AOX2 |AOX2 |APT1 |APT1 |ARL3 |ARL3 |MORE |
Sigle HC, et al. (2005) Oxygen accessibility and iron levels are critical factors for the antifungal action of ciclopirox against Candida albicans. J Antimicrob Chemother 55(5):663-73
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |C5_00810C_A |C6_01260W_A |CAT1 |CAT1 |CCC2 |CCC2 |CCP1 |CCP1 |CFL1 |CFL1 |CFL2 |CFL2 |CFL4 |CFL4 |MORE |
Bensen ES, et al. (2004) Transcriptional profiling in Candida albicans reveals new adaptive responses to extracellular pH and functions for Rim101p. Mol Microbiol 54(5):1335-51
CGD Papers Entry Pubmed Entry Reference LINKOUT Web Supplement Data | C. albicans | |AAF1 |AAF1 |AAT1 |AAT1 |ACO1 |ACO1 |AGC1 |AGC1 |AHP1 |AHP1 |ALS1 |ALS1 |ALS10 |ALS3 |MORE |
Lan CY, et al. (2004) Regulatory networks affected by iron availability in Candida albicans. Mol Microbiol 53(5):1451-69
CGD Papers Entry Pubmed Entry Reference LINKOUT Web Supplement Data | C. albicans | |ACO1 |ACO1 |ACO2 |ACO2 |AGE1 |AGE1 |ALS12 |ALS2 |ALS2 |ARO3 |ARO3 |ASC1 |ASC1 |ATM1 |MORE |
Ramon AM and Fonzi WA (2003) Diverged binding specificity of Rim101p, the Candida albicans ortholog of PacC. Eukaryot Cell 2(4):718-28
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |C7_00430W_A |CCP1 |CCP1 |CFL2 |CFL2 |CHA1 |CHA1 |ECM331 |ECM331 |ENA2 |ENA2 |FET99 |FET99 |FRP1 |MORE |
Sohn K, et al. (2003) EFG1 is a major regulator of cell wall dynamics in Candida albicans as revealed by DNA microarrays. Mol Microbiol 47(1):89-102
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |AAF1 |AAF1 |ALS1 |ALS1 |ALS3 |ALS3 |ALS4 |ALS4 |ALS5 |ALS5 |ALS7 |ALS7 |ALS9 |ALS9 |MORE |
Bensen ES, et al. (2002) A forkhead transcription factor is important for true hyphal as well as yeast morphogenesis in Candida albicans. Eukaryot Cell 1(5):787-98
CGD Papers Entry Pubmed Entry Reference LINKOUT Data | C. albicans | |BDF1 |BDF1 |CBF1 |CBF1 |CDC34 |CDC34 |CHT2 |CHT2 |CLB4 |CLB4 |CPH1 |CPH1 |ECE1 |ECE1 |MORE |
Braun BR and Johnson AD (2000) TUP1, CPH1 and EFG1 make independent contributions to filamentation in candida albicans. Genetics 155(1):57-67
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |ACT1 |ACT1 |ALS1 |ALS1 |CHS2 |CHS2 |CHT2 |CHT2 |CPH1 |CPH1 |ECE1 |ECE1 |EFG1 |EFG1 |MORE |
Braun BR, et al. (2000) Identification and characterization of TUP1-regulated genes in Candida albicans. Genetics 156(1):31-44
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |FRE10 |FRE10 |HWP1 |HWP1 |RBT1 |RBT1 |RBT4 |RBT4 |RBT5 |RBT5 |RBT7 |RBT7 |TUP1 |TUP1 |
Lamarre C, et al. (2000) Expression cloning of the Candida albicans CSA1 gene encoding a mycelial surface antigen by sorting of Saccharomyces cerevisiae transformants with monoclonal antibody-coated magnetic beads. Mol Microbiol 35(2):444-53
CGD Papers Entry Pubmed Entry Reference LINKOUT |