Repression by Ume6 involves recruitment of a complex containing Sin3 corepressor and Rpd3 histone deacetylase to target promoters D Kadosh, K Struhl Cell 89 (3), 365-371, 1997 | 740 | 1997 |
Dispersion as an Important Step in the Candida albicans Biofilm Developmental Cycle P Uppuluri, AK Chaturvedi, A Srinivasan, M Banerjee, ... PLoS pathogens 6 (3), e1000828, 2010 | 521 | 2010 |
Targeted recruitment of the Sin3-Rpd3 histone deacetylase complex generates a highly localized domain of repressed chromatin in vivo D Kadosh, K Struhl Molecular and cellular biology 18 (9), 5121-5127, 1998 | 441 | 1998 |
NRG1, a repressor of filamentous growth in C. albicans, is down‐regulated during filament induction BR Braun, D Kadosh, AD Johnson The EMBO journal, 2001 | 418 | 2001 |
Induction of the Candida albicans Filamentous Growth Program by Relief of Transcriptional Repression: A Genome-wide Analysis D Kadosh, AD Johnson Molecular biology of the cell 16 (6), 2903-2912, 2005 | 367 | 2005 |
Histone deacetylase activity of Rpd3 is important for transcriptional repression in vivo D Kadosh, K Struhl Genes & development 12 (6), 797-805, 1998 | 317 | 1998 |
Coevolution of morphology and virulence in Candida species DS Thompson, PL Carlisle, D Kadosh Eukaryotic cell 10 (9), 1173-1182, 2011 | 300 | 2011 |
The histone deacetylase RPD3 counteracts genomic silencing in Drosophila and yeast FD Rubertis, D Kadosh, S Henchoz, D Pauli, G Reuter, K Struhl, P Spierer Nature 384 (6609), 589-591, 1996 | 294 | 1996 |
UME6, a Novel Filament-specific Regulator of Candida albicans Hyphal Extension and Virulence M Banerjee, DS Thompson, A Lazzell, PL Carlisle, C Pierce, ... Molecular biology of the cell 19 (4), 1354-1365, 2008 | 287 | 2008 |
Expression levels of a filament-specific transcriptional regulator are sufficient to determine Candida albicans morphology and virulence PL Carlisle, M Banerjee, A Lazzell, C Monteagudo, JL López-Ribot, ... Proceedings of the National Academy of Sciences 106 (2), 599-604, 2009 | 258 | 2009 |
Rfg1, a protein related to the Saccharomyces cerevisiae hypoxic regulator Rox1, controls filamentous growth and virulence in Candida albicans D Kadosh, AD Johnson Molecular and cellular biology, 2001 | 241 | 2001 |
Expression of UME6, a Key Regulator of Candida albicans Hyphal Development, Enhances Biofilm Formation via Hgc1- and Sun41-Dependent Mechanisms M Banerjee, P Uppuluri, XR Zhao, PL Carlisle, G Vipulanandan, CC Villar, ... Eukaryotic cell 12 (2), 224-232, 2013 | 95 | 2013 |
Candida albicans colonization and dissemination from the murine gastrointestinal tract: the influence of morphology and Th17 immunity S Vautier, RA Drummond, K Chen, GI Murray, D Kadosh, AJP Brown, ... Cellular microbiology 17 (4), 445-450, 2015 | 79 | 2015 |
Candida albicans Ume6, a filament-specific transcriptional regulator, directs hyphal growth via a pathway involving Hgc1 cyclin-related protein PL Carlisle, D Kadosh Eukaryotic cell 9 (9), 1320-1328, 2010 | 77 | 2010 |
A genome-wide transcriptional analysis of morphology determination in Candida albicans PL Carlisle, D Kadosh Molecular biology of the cell 24 (3), 246-260, 2013 | 76 | 2013 |
Regulatory mechanisms controlling morphology and pathogenesis in Candida albicans D Kadosh Current opinion in microbiology 52, 27-34, 2019 | 63 | 2019 |
Comparative evolution of morphological regulatory functions in Candida species E Lackey, G Vipulanandan, DS Childers, D Kadosh Eukaryotic cell 12 (10), 1356-1368, 2013 | 63 | 2013 |
Activation and repression mechanisms in yeast K Struhl, D Kadosh, M Keaveney, L Kuras, Z Moqtaderi Cold Spring Harbor symposia on quantitative biology 63, 413-422, 1998 | 52 | 1998 |
Control of Candida albicans morphology and pathogenicity by post-transcriptional mechanisms D Kadosh Cellular and molecular life sciences 73, 4265-4278, 2016 | 47 | 2016 |
A 5′ UTR‐mediated translational efficiency mechanism inhibits the Candida albicans morphological transition DS Childers, V Mundodi, M Banerjee, D Kadosh Molecular microbiology 92 (3), 570-585, 2014 | 45 | 2014 |