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Full-Text Articles in Life Sciences
Different Requirements Of The Swi/Snf Complex For Robust Nucleosome Displacement At Promoters Of Heat Shock Factor And Msn2- And Msn4-Regulated Heat Shock Genes, Tamara Y. Erkina, P. A. Tschetter, Alexander M. Erkine
Different Requirements Of The Swi/Snf Complex For Robust Nucleosome Displacement At Promoters Of Heat Shock Factor And Msn2- And Msn4-Regulated Heat Shock Genes, Tamara Y. Erkina, P. A. Tschetter, Alexander M. Erkine
Scholarship and Professional Work – COPHS
The stress response in yeast cells is regulated by at least two classes of transcription activators—HSF and Msn2/4, which differentially affect promoter chromatin remodeling. We demonstrate that the deletion of SNF2, an ATPase activity-containing subunit of the chromatin remodeling SWI/SNF complex, eliminates histone displacement, RNA polymerase II recruitment, and heat shock factor (HSF) binding at the HSP12 promoter while delaying these processes at the HSP82 and SSA4 promoters. Out of the three promoters, the double deletion of MSN2 and MSN4 eliminates both chromatin remodeling and HSF binding only at the HSP12 promoter, suggesting that Msn2/4 activators are primary determinants of …
Displacement Of Histones At Promoters Of Saccharomyces Cerevisiae Heat Shock Genes Is Differentially Associated With Histone H3 Acetylation, Tamara Y. Erkina, Alexander M. Erkine
Displacement Of Histones At Promoters Of Saccharomyces Cerevisiae Heat Shock Genes Is Differentially Associated With Histone H3 Acetylation, Tamara Y. Erkina, Alexander M. Erkine
Scholarship and Professional Work – COPHS
Chromatin remodeling at promoters of activated genes spans from mild histone modifications to outright displacement of nucleosomes in trans. Factors affecting these events are not always clear. Our results indicate that histone H3 acetylation associated with histone displacement differs drastically even between promoters of such closely related heat shock genes as HSP12, SSA4, and HSP82. The HSP12 promoter, with the highest level of histone displacement, showed the highest level of H3 acetylation, while the SSA4 promoter, with a lower histone displacement, showed only modest H3 acetylation. Moreover, for the HSP12 promoter, the level of acetylated H3 …
Cell Cycle-Dependent Binding Of Yeast Heat Shock Factor To Nucleosomes, Christina Bourgeois Venturi, Alexander M. Erkine, David S. Gross
Cell Cycle-Dependent Binding Of Yeast Heat Shock Factor To Nucleosomes, Christina Bourgeois Venturi, Alexander M. Erkine, David S. Gross
Scholarship and Professional Work – COPHS
In the nucleus, transcription factors must contend with the presence of chromatin in order to gain access to their cognate regulatory sequences. As most nuclear DNA is assembled into nucleosomes, activators must either invade a stable, preassembled nucleosome or preempt the formation of nucleosomes on newly replicated DNA, which is transiently free of histones. We have investigated the mechanism by which heat shock factor (HSF) binds to target nucleosomal heat shock elements (HSEs), using as our model a dinucleosomal heat shock promoter (hsp82-ΔHSE1). We find that activated HSF cannot bind a stable, sequence-positioned nucleosome in G1-arrested …
Cooperative Binding Of Heat Shock Factor To The Yeast Hsp82 Promoter In Vivo And In Vitro, Alexander M. Erkine, Serena F. Magrogan, Edward A. Sekinger, David S. Gross
Cooperative Binding Of Heat Shock Factor To The Yeast Hsp82 Promoter In Vivo And In Vitro, Alexander M. Erkine, Serena F. Magrogan, Edward A. Sekinger, David S. Gross
Scholarship and Professional Work – COPHS
revious work has shown that heat shock factor (HSF) plays a central role in remodeling the chromatin structure of the yeastHSP82 promoter via constitutive interactions with its high-affinity binding site, heat shock element 1 (HSE1). The HSF-HSE1 interaction is also critical for stimulating both basal (noninduced) and induced transcription. By contrast, the function of the adjacent, inducibly occupied HSE2 and -3 is unknown. In this study, we examined the consequences of mutations in HSE1, HSE2, and HSE3 on HSF binding and transactivation. We provide evidence that in vivo, HSF binds to these three sites cooperatively. This cooperativity is seen …