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Full-Text Articles in Medicinal and Pharmaceutical Chemistry
Nucleosome Distortion As A Possible Mechanism Of Transcription Activation Domain Function, Tamara Y. Erkina, Alexandre M. Erkine
Nucleosome Distortion As A Possible Mechanism Of Transcription Activation Domain Function, Tamara Y. Erkina, Alexandre M. Erkine
Scholarship and Professional Work – COPHS
After more than three decades since the discovery of transcription activation domains (ADs) in gene-specific activators, the mechanism of their function remains enigmatic. The widely accepted model of direct recruitment by ADs of co-activators and basal transcriptional machinery components, however, is not always compatible with the short size yet very high degree of sequence randomness and intrinsic structural disorder of natural and synthetic ADs. In this review, we formulate the basis for an alternative and complementary model, whereby sequence randomness and intrinsic structural disorder of ADs are necessary for transient distorting interactions with promoter nucleosomes, triggering promoter nucleosome translocation and …
Functional Interplay Between Chromatin Remodeling Complexes Rsc, Swi/Snf And Iswi In Regulation Of Yeast Heat Shock Genes, Tamara Y. Erkina, Y. Zou, S. Freeling, V. I. Vorobyev, Alexander M. Erkine
Functional Interplay Between Chromatin Remodeling Complexes Rsc, Swi/Snf And Iswi In Regulation Of Yeast Heat Shock Genes, Tamara Y. Erkina, Y. Zou, S. Freeling, V. I. Vorobyev, Alexander M. Erkine
Scholarship and Professional Work – COPHS
Chromatin remodeling is an essential part of transcription initiation. We show that at heat shock gene promoters functional interactions between individual ATP-dependent chromatin remodeling complexes play critical role in both nucleosome displacement and Pol II recruitment. Using HSP12, HSP82 and SSA4 gene promoters as reporters, we demonstrated that while inactivation of SNF2, a critical ATPase of the SWI/SNF complex, primarily affects the HSP12 promoter, depletion of STH1- a SNF2 homolog from the RSC complex reduces histone displacement and abolishes the Pol II recruitment at all three promoters. From these results, we conclude that redundancy between SWI/SNF and RSC complexes …
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 …