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Physical Chemistry of Nucleic Acids

$427,004R01FY2015GMNIH

University Of California Berkeley, Berkeley CA

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Abstract

DESCRIPTION (provided by applicant): Transcription is an essential process for life that constitutes the first step of gene expression in the cell and a crucial checkpoint for the control f critical biological events, including cell growth, differentiation, and oncogenesis. In eukaryotes, this highly regulated process is carried out by RNA polymerase II (Pol II). To transcribe the DNA, this enzyme must overcome the physical barriers imposed by the nucleosomal organization of the genetic material. Moreover, Pol II must transcribe torsionally constrained DNA segments that require the enzyme to translocate against increasing torques. Various mechanisms participate in the control and regulation of transcription, including structural changes of chromatin, various transcription factors, the polymerase ability to generate torque, and the activity of ATP-dependent chromatin remodeler complexes. In this application we propose to characterize these mechanisms of transcription control using a combination of single molecule manipulation and visualization approaches. Specifically, we propose: 1) Investigate the dynamics of transcription through nucleosomal arrays to elucidate the contribution of internucleosomal elements to the barrier. 2) Determine the mechanisms by which transcription factors IIS (TFIIS) and IIF (TFIIF) enhance nucleosomal transcription. 3) Characterize the relationship between the torsional strain in DNA and the ability of Pol II to transcribe through a nucleosome. 4) Characterize the nucleosome-remodeling mechanism, mechanochemical properties, and torque generation of the SWI/SNF complex.

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