A ten-minute DNA preparation from yeast efficiently releases autonomous plasmids for transformaion of Escherichia coli CS Hoffman, F Winston Gene 57 (2-3), 267-272, 1987 | 3291 | 1987 |
Yeast Gcn5 functions in two multisubunit complexes to acetylate nucleosomal histones: characterization of an Ada complex and the SAGA (Spt/Ada) complex. PA Grant, L Duggan, J Côté, SM Roberts, JE Brownell, R Candau, ... Genes & development 11 (13), 1640-1650, 1997 | 1361 | 1997 |
Construction of a set of convenient saccharomyces cerevisiae strains that are isogenic to S288C F Winston, C Dollard, SL Ricupero‐Hovasse Yeast 11 (1), 53-55, 1995 | 1102 | 1995 |
DSIF, a novel transcription elongation factor that regulates RNA polymerase II processivity, is composed of human Spt4 and Spt5 homologs T Wada, T Takagi, Y Yamaguchi, A Ferdous, T Imai, S Hirose, S Sugimoto, ... Genes & development 12 (3), 343-356, 1998 | 946 | 1998 |
Yeast SNF/SWI transcriptional activators and the SPT/SIN chromatin connection F Winston, M Carlson Trends in Genetics 8 (11), 387-391, 1992 | 789 | 1992 |
Histone H3 lysine 4 methylation is mediated by Set1 and required for cell growth and rDNA silencing in Saccharomyces cerevisiae SD Briggs, M Bryk, BD Strahl, WL Cheung, JK Davie, SYR Dent, ... Genes & development 15 (24), 3286-3295, 2001 | 769 | 2001 |
Intergenic transcription is required to repress the Saccharomyces cerevisiae SER3 gene JA Martens, L Laprade, F Winston Nature 429 (6991), 571-574, 2004 | 727 | 2004 |
Transcription elongation factors repress transcription initiation from cryptic sites CD Kaplan, L Laprade, F Winston Science 301 (5636), 1096-1099, 2003 | 712 | 2003 |
Evidence that SNF2/SWI2 and SNF5 activate transcription in yeast by altering chromatin structure. JN Hirschhorn, SA Brown, CD Clark, F Winston Genes & development 6 (12a), 2288-2298, 1992 | 708 | 1992 |
Evidence that Spt4, Spt5, and Spt6 control transcription elongation by RNA polymerase II inSaccharomyces cerevisiae GA Hartzog, T Wada, H Handa, F Winston Genes & development 12 (3), 357-369, 1998 | 588 | 1998 |
Whole-genome expression analysis of snf/swi mutants of Saccharomyces cerevisiae P Sudarsanam, VR Iyer, PO Brown, F Winston Proceedings of the National Academy of Sciences 97 (7), 3364-3369, 2000 | 553 | 2000 |
The bromodomain: a conserved sequence found in human, Drosophila and yeast proteins. SR Haynes, C Dollard, F Winston, S Beck, J Trowsdale, IB Dawid Nucleic acids research 20 (10), 2603, 1992 | 523 | 1992 |
The Swi/Snf family: nucleosome-remodeling complexes and transcriptional control P Sudarsanam, F Winston TRENDS in Genetics 16 (8), 345-351, 2000 | 488 | 2000 |
Recent advances in understanding chromatin remodeling by Swi/Snf complexes JA Martens, F Winston Current opinion in genetics & development 13 (2), 136-142, 2003 | 465 | 2003 |
Redundant roles for the TFIID and SAGA complexes in global transcription TI Lee, HC Causton, FCP Holstege, WC Shen, N Hannett, EG Jennings, ... Nature 405 (6787), 701-704, 2000 | 457 | 2000 |
Evidence that Spt6p controls chromatin structure by a direct interaction with histones A Bortvin, F Winston Science 272 (5267), 1473-1476, 1996 | 451 | 1996 |
Functional organization of the yeast SAGA complex: distinct components involved in structural integrity, nucleosome acetylation, and TATA-binding protein interaction DE Sterner, PA Grant, SM Roberts, LJ Duggan, R Belotserkovskaya, ... Molecular and cellular biology 19 (1), 86-98, 1999 | 450 | 1999 |
MUTATIONS AFFECTING TY-MEDIATED EXPRESSION OF THE HIS4 GENE OF SACCHAROMYCES CEREVISIAE F Winston, DT Chaleff, B Valent, GR Fink Genetics 107 (2), 179-197, 1984 | 424 | 1984 |
The S. cerevisiae SAGA complex functions in vivo as a coactivator for transcriptional activation by Gal4 E Larschan, F Winston Genes & development 15 (15), 1946-1956, 2001 | 375 | 2001 |
Essential Functional Interactions of SAGA, a Saccharomyces cerevisiae Complex of Spt, Ada, and Gcn5 Proteins, With the Snf/Swi and Srb/Mediator Complexes SM Roberts, F Winston Genetics 147 (2), 451-465, 1997 | 374 | 1997 |