| Reference | Species | Other Genes Addressed |
|---|
Zhang Y, et al. (2024) DNA Damage Checkpoints Govern Global Gene Transcription and Exhibit Species-Specific Regulation on HOF1 in Candida albicans. J Fungi (Basel) 10(6)
CGD Papers Entry Pubmed Entry Web Supplement Data | C. albicans | |DUN1 |FKH2 |HMX1 |HOF1 |MRV6 |RAD53 |RAD9 |
Mba IE and Nweze EI (2020) Mechanism of Candida pathogenesis: revisiting the vital drivers Eur J Clin Microbiol Infect Dis 39:1797-1819
CGD Papers Entry Pubmed Entry | C. albicans | |AHR1 |C3_07100C_A |CEK1 |CPH1 |CPH2 |CZF1 |DPB4 |EFG1 |ERG1 |ERG11 |ERG3 |FGR22 |FKH2 |FLO8 |MORE |
Ruben S, et al. (2020) Ahr1 and Tup1 Contribute to the Transcriptional Control of Virulence-Associated Genes in Candida albicans. mBio 11(2)
CGD Papers Entry Pubmed Entry | C. albicans | |AHR1 |ALS3 |BCR1 |BRG1 |CPH1 |ECE1 |EFG1 |IHD1 |NRG1 |TEC1 |TUP1 |UME6 |
Alqahtani FM, et al. (2019) Chemogenomic profiling to understand the antifungal action of a bioactive aurone compound PLoS ONE 14:e0226068
CGD Papers Entry Pubmed Entry | C. albicans | |CBK1 |CDC28 |CDC42 |CSC25 |ERG3 |HGC1 |RAS1 |RAS2 |RPS4A |RPS5 |TSC11 |
Paul S and Moye-Rowley WS (2014) Multidrug resistance in fungi: regulation of transporter-encoding gene expression. Front Physiol 5:143
CGD Papers Entry Pubmed Entry | C. albicans | |CAP1 |CAP1 |CDR1 |CDR1 |MDR1 |MDR1 |MRR1 |MRR1 |NDT80 |NDT80 |TAC1 |TAC1 |UPC2 |UPC2 |
| C. glabrata | |CDR1 |FLR1 |PDH1 |SNQ2 |TPO3 |
Baker CR, et al. (2013) Following gene duplication, paralog interference constrains transcriptional circuit evolution. Science 342(6154):104-8
CGD Papers Entry Pubmed Entry |
Gordan R, et al. (2012) Identification of cell cycle-regulated, putative hyphal genes in Candida albicans. Pac Symp Biocomput :299-310
CGD Papers Entry Pubmed Entry Reference LINKOUT Reference LINKOUT | C. albicans | |ACE2 |ACE2 |C1_04160C_A |C1_06720C_A |C1_08440C_A |C1_10340W_A |C2_03890W_A |C2_08330W_A |C4_00080C_A |C6_01560W_A |C6_02760W_A |C7_01500W_A |CR_01090W_A |CR_05450C_A |MORE |
Askew C, et al. (2011) The zinc cluster transcription factor Ahr1p directs Mcm1p regulation of Candida albicans adhesion. Mol Microbiol 79(4):940-53
CGD Papers Entry Pubmed Entry Reference LINKOUT Reference LINKOUT Data | C. albicans | |AHR1 |AHR1 |
Baker CR, et al. (2011) Extensive DNA-binding specificity divergence of a conserved transcription regulator. Proc Natl Acad Sci U S A 108(18):7493-8
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |MTLALPHA1 |MTLALPHA1 |
Hussein B, et al. (2011) G1/S transcription factor orthologues Swi4p and Swi6p are important but not essential for cell proliferation and influence hyphal development in the fungal pathogen Candida albicans. Eukaryot Cell 10(3):384-97
CGD Papers Entry Pubmed Entry Reference LINKOUT Data | C. albicans | |ASE1 |ASE1 |C1_00580W_A |C1_05520W_A |CDC6 |CDC6 |CLN3 |CLN3 |DUT1 |DUT1 |FKH2 |FKH2 |GIN4 |GIN4 |MORE |
Mogavero S, et al. (2011) Differential requirement of the transcription factor Mcm1 for activation of the Candida albicans multidrug efflux pump MDR1 by its regulators Mrr1 and Cap1. Antimicrob Agents Chemother 55(5):2061-6
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |CAP1 |CAP1 |MDR1 |MDR1 |MRR1 |MRR1 |
Moran GP, et al. (2011) Comparative genomics and the evolution of pathogenicity in human pathogenic fungi. Eukaryot Cell 10(1):34-42
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |SAP4 |SAP4 |SAP5 |SAP5 |SAP6 |SAP6 |
Lavoie H, et al. (2010) Evolutionary tinkering with conserved components of a transcriptional regulatory network. PLoS Biol 8(3):e1000329
CGD Papers Entry Pubmed Entry Reference LINKOUT Reference LINKOUT Reference LINKOUT Reference LINKOUT Web Supplement | C. albicans | |CBF1 |CBF1 |CDC28 |CDC28 |CLN3 |CLN3 |FHL1 |FHL1 |FKH2 |FKH2 |HHT1 |HHT1 |HHT2 |HHT2 |MORE |
Mitrovich QM, et al. (2010) Evolution of yeast noncoding RNAs reveals an alternative mechanism for widespread intron loss. Science 330(6005):838-41
CGD Papers Entry Pubmed Entry Reference LINKOUT Web Supplement Data | C. albicans | |ACB1 |ACB1 |ACC1 |ACC1 |ACS2 |ACS2 |ACT1 |ACT1 |ANB1 |ANB1 |APE2 |APE2 |APN1 |APN1 |MORE |
Morschhauser J (2010) Regulation of multidrug resistance in pathogenic fungi. Fungal Genet Biol 47(2):94-106
CGD Papers Entry Pubmed Entry | C. albicans | |CAP1 |CAP1 |CDR1 |CDR1 |CDR2 |CDR2 |FLU1 |FLU1 |MDR1 |MDR1 |MRR1 |MRR1 |NDT80 |NDT80 |MORE |
| C. glabrata | |CDR1 |PDR1 |SNQ2 |
Oh J, et al. (2010) Gene annotation and drug target discovery in Candida albicans with a tagged transposon mutant collection. PLoS Pathog 6(10):e1001140
CGD Papers Entry Pubmed Entry Reference LINKOUT Reference LINKOUT Reference LINKOUT Reference LINKOUT Data | C. albicans | |AAP1 |AAP1 |ACB1 |ACB1 |ADH5 |ADH5 |AHP2 |AHP2 |ALD5 |ALD5 |ALO1 |ALO1 |ALS2 |ALS2 |MORE |
Wang YC, et al. (2010) Global screening of potential Candida albicans biofilm-related transcription factors via network comparison. BMC Bioinformatics 11:53
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |ADR1 |ADR1 |C4_03860C_A |C5_00380W_A |CAP4 |CAP4 |CPH1 |CPH1 |EFG1 |EFG1 |EFH1 |EFH1 |FGR15 |FGR15 |MORE |
Cote P, et al. (2009) Transcriptional analysis of the Candida albicans cell cycle. Mol Biol Cell 20(14):3363-73
CGD Papers Entry Pubmed Entry Reference LINKOUT Web Supplement Data | C. albicans | |ACE2 |ACE2 |APC1 |APC1 |ASE1 |ASE1 |ASH2 |ASH2 |BRN1 |BRN1 |CCN1 |CCN1 |CDC14 |CDC14 |MORE |
Lavoie H, et al. (2009) Rearrangements of the transcriptional regulatory networks of metabolic pathways in fungi. Curr Opin Microbiol 12(6):655-63
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |ADR1 |ADR1 |CAT8 |CAT8 |CBF1 |CBF1 |CTF1 |CTF1 |FHL1 |FHL1 |GAL4 |GAL4 |GCN2 |GCN2 |MORE |
Lavoie H, et al. (2008) A toolbox for epitope-tagging and genome-wide location analysis in Candida albicans. BMC Genomics 9:578
CGD Papers Entry Pubmed Entry Data | C. albicans | |ARG3 |ARG3 |ARG5,6 |ARG5,6 |ARG8 |ARG8 |BUD21 |BUD21 |CAR1 |CAR1 |CBF1 |CBF1 |CDC46 |CDC46 |MORE |
Tuch BB, et al. (2008) The evolution of combinatorial gene regulation in fungi. PLoS Biol 6(2):e38
CGD Papers Entry Pubmed Entry Reference LINKOUT Reference LINKOUT Reference LINKOUT Web Supplement Web Supplement Web Supplement Web Supplement Web Supplement Web Supplement Web Supplement Web Supplement Web Supplement Web Supplement Web Supplement Data | C. albicans | |ARG81 |ARG81 |ASE1 |ASE1 |C6_01780C_A |CDC20 |CDC20 |CDC5 |CDC5 |CDC6 |CDC6 |CHS2 |CHS2 |CLN3 |MORE |
Biswas S, et al. (2007) Environmental sensing and signal transduction pathways regulating morphopathogenic determinants of Candida albicans. Microbiol Mol Biol Rev 71(2):348-76
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |ALS1 |ALS1 |BCY1 |BCY1 |BUD2 |BUD2 |CDC4 |CDC4 |CDC42 |CDC42 |CEK1 |CEK1 |CLB2 |CLB2 |MORE |
Mitrovich QM, et al. (2007) Computational and experimental approaches double the number of known introns in the pathogenic yeast Candida albicans. Genome Res 17(4):492-502
CGD Papers Entry Pubmed Entry Reference LINKOUT Web Supplement Data | C. albicans | |ACB1 |ACB1 |ACC1 |ACC1 |ACT1 |ACT1 |ANB1 |ANB1 |APN1 |APN1 |APS3 |APS3 |ARC19 |ARC19 |MORE |
Riggle PJ and Kumamoto CA (2006) Transcriptional regulation of MDR1, encoding a drug efflux determinant, in fluconazole-resistant Candida albicans strains through an Mcm1p binding site. Eukaryot Cell 5(12):1957-68
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |CDR2 |CDR2 |MDR1 |MDR1 |
Kumamoto CA and Vinces MD (2005) Alternative Candida albicans lifestyles: growth on surfaces. Annu Rev Microbiol 59:113-33
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |ACE2 |ACE2 |BMH1 |BMH1 |CDR1 |CDR1 |CDR2 |CDR2 |CEK1 |CEK1 |CHK1 |CHK1 |CPH1 |CPH1 |MORE |
Nobile CJ and Mitchell AP (2005) Regulation of cell-surface genes and biofilm formation by the C. albicans transcription factor Bcr1p. Curr Biol 15(12):1150-5
CGD Papers Entry Pubmed Entry Reference LINKOUT Web Supplement Data | C. albicans | |ADA2 |ADA2 |ADR1 |ADR1 |AGE3 |AGE3 |ALS1 |ALS1 |ALS2 |ALS2 |ALS3 |ALS3 |ALS4 |ALS4 |MORE |
Rottmann M, et al. (2003) A screen in Saccharomyces cerevisiae identified CaMCM1, an essential gene in Candida albicans crucial for morphogenesis. Mol Microbiol 47(4):943-59
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |ASH1 |ASH1 |C2_07370W_A |C5_02070C_A |C7_00350C_A |CDC5 |CDC5 |CPH2 |CPH2 |EFG1 |EFG1 |HMO1 |HMO1 |HST7 |MORE |
Zhao R, et al. (2002) Roles of TUP1 in switching, phase maintenance, and phase-specific gene expression in Candida albicans. Eukaryot Cell 1(3):353-65
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |ECE1 |ECE1 |EFG1 |EFG1 |HWP1 |HWP1 |OP4 |OP4 |RBT5 |RBT5 |SAP1 |SAP1 |SAP3 |SAP3 |MORE |
Srikantha T, et al. (2001) The histone deacetylase genes HDA1 and RPD3 play distinct roles in regulation of high-frequency phenotypic switching in Candida albicans. J Bacteriol 183(15):4614-25
CGD Papers Entry Pubmed Entry Reference LINKOUT | C. albicans | |EFG1 |EFG1 |HDA1 |HDA1 |HOS1 |HOS1 |HOS2 |HOS2 |HOS3 |HOS3 |OP4 |OP4 |RPD3 |RPD3 |MORE |
Tzung KW, et al. (2001) Genomic evidence for a complete sexual cycle in Candida albicans. Proc Natl Acad Sci U S A 98(6):3249-53
CGD Papers Entry Pubmed Entry Reference LINKOUT Web Supplement | C. albicans | |AGE3 |AGE3 |APC1 |APC1 |APR1 |APR1 |AXL1 |AXL1 |BDF1 |BDF1 |BEM1 |BEM1 |BNI1 |BNI1 |MORE |