Global motions of the nuclear pore complex: Insights from elastic network models

Lezon, TR and Sali, A and Bahar, I (2009) Global motions of the nuclear pore complex: Insights from elastic network models. PLoS Computational Biology, 5 (9). ISSN 1553-734X

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Abstract

The nuclear pore complex (NPC) is the gate to the nucleus. Recent determination of the configuration of proteins in the yeast NPC at ,5 nm resolution permits us to study the NPC global dynamics using coarse-grained structural models. We investigate these large-scale motions by using an extended elastic network model (ENM) formalism applied to several coarse-grained representations of the NPC. Two types of collective motions (global modes) are predicted by the ENMs to be intrinsically favored by the NPC architecture: global bending and extension/contraction from circular to elliptical shapes. These motions are shown to be robust against tested variations in the representation of the NPC, and are largely captured by a simple model of a toroid with axially varying mass density. We demonstrate that spoke multiplicity significantly affects the accessible number of symmetric low-energy modes of motion; the NPC-like toroidal structures composed of 8 spokes have access to highly cooperative symmetric motions that are inaccessible to toroids composed of 7 or 9 spokes. The analysis reveals modes of motion that may facilitate macromolecular transport through the NPC, consistent with previous experimental observations. © 2009 Lezon et al.

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Details

Item Type:	Article
Status:	Published
Creators/Authors:	Creators Email Pitt Username ORCID Lezon, TR lezon@pitt.edu LEZON Sali, A Bahar, I ivet.bahar@stonybrook.edu BAHAR
Contributors:	Contribution Contributors Name Email Pitt Username ORCID Editor Levitt, Michael UNSPECIFIED UNSPECIFIED UNSPECIFIED
Date:	1 September 2009
Date Type:	Publication
Journal or Publication Title:	PLoS Computational Biology
Volume:	5
Number:	9
DOI or Unique Handle:	10.1371/journal.pcbi.1000496
Schools and Programs:	School of Medicine > Computational Biology
Refereed:	Yes
ISSN:	1553-734X
MeSH Headings:	Active Transport, Cell Nucleus; Computational Biology--methods; Elasticity; Fungal Proteins--chemistry; Fungal Proteins--metabolism; Models, Biological; Nuclear Pore--chemistry; Nuclear Pore--metabolism; Nuclear Pore Complex Proteins--chemistry; Nuclear Pore Complex Proteins--metabolism; Yeasts
Other ID:	NLM PMC2725293
PubMed Central ID:	PMC2725293
PubMed ID:	19730674
Date Deposited:	03 Aug 2012 16:16
Last Modified:	17 Mar 2023 11:55
URI:	http://d-scholarship.pitt.edu/id/eprint/13269

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