Modulation of Toroidal Proteins Dynamics in Favor of Functional Mechanisms upon Ligand Binding

Toroidal proteins serve as molecular machines and play crucial roles in biological processes such as DNA replication and RNA transcription. Despite progress in the structural characterization of several toroidal proteins, we still lack a mechanistic understanding of the significance of their archite...

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Veröffentlicht in:	Biophysical journal 2020-04, Vol.118 (7), p.1782-1794
Hauptverfasser:	Li, Hongchun, Doruker, Pemra, Hu, Guang, Bahar, Ivet
Format:	Artikel
Sprache:	eng
Schlagworte:	DNA DNA Replication DNA-Binding Proteins - metabolism Ligands
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container_title	Biophysical journal
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creator	Li, Hongchun Doruker, Pemra Hu, Guang Bahar, Ivet
description	Toroidal proteins serve as molecular machines and play crucial roles in biological processes such as DNA replication and RNA transcription. Despite progress in the structural characterization of several toroidal proteins, we still lack a mechanistic understanding of the significance of their architecture, oligomerization states, and intermolecular interactions in defining their biological function. In this work, we analyze the collective dynamics of toroidal proteins with different oligomerization states, namely, dimeric and trimeric DNA sliding clamps, nucleocapsid proteins (4-, 5-, and 6-mers) and Trp RNA-binding attenuation proteins (11- and 12-mers). We observe common global modes, among which cooperative rolling stands out as a mechanism enabling DNA processivity, and clamshell motions as those underlying the opening/closure of the sliding clamps. Alterations in global dynamics due to complexation with DNA or the clamp loader are shown to assist in enhancing motions to enable robust function. The analysis provides new insights into the differentiation and enhancement of functional motions upon intersubunit and intermolecular interactions.
doi_str_mv	10.1016/j.bpj.2020.01.046
format	Article
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subjects	DNA DNA Replication DNA-Binding Proteins - metabolism Ligands
title	Modulation of Toroidal Proteins Dynamics in Favor of Functional Mechanisms upon Ligand Binding
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