Allosteric modulation of conformational dynamics in human Hsp90α: a computational study

- Penkler, David L, Atilgan, Canan, Tastan Bishop, Özlem

Title
Allosteric modulation of conformational dynamics in human Hsp90α: a computational study
Creator
Penkler, David L, Atilgan, Canan, Tastan Bishop, Özlem
Date
2017
Type
text
Type
article
Identifier
http://hdl.handle.net/10962/68531
Identifier
vital:29276
Identifier
http://dx.doi.org/10.1101/198341
Description
Central to Hsp90’s biological function is its ability to interconvert between various conformational states. Drug targeting of Hsp90’s regulatory mechanisms, including its modulation by co-chaperone association, presents as an attractive therapeutic strategy for Hsp90 associated pathologies. Here, we utilize homology modeling techniques to calculate full-length structures of human Hsp90α in closed and partially-open conformations. Atomistic simulations of these structures demonstrated that bound ATP stabilizes the dimer by ‘tensing’ each protomer, while ADP and apo configurations ‘relax’ the complex by increasing global flexibility. Dynamic residue network analysis revealed regions of the protein involved in intra-protein communication, and identified several overlapping key communication hubs that correlate with known functional sites. Perturbation response scanning analysis identified several potential residue sites capable of modulating conformational change in favour of interstate conversion. For the ATP-bound open conformation, these sites were found to overlap with known Aha1 and client binding sites, demonstrating how naturally occurring forces associated with co-factor binding could allosterically modulate conformational dynamics.
Format
56 pages, pdf
Language
English
Relation
bioRxiv, Penkler, D.L., Atilgan, C. and Bishop, O.T., 2017. Allosteric Modulation of Conformational Dynamics in Human Hsp90?: A Computational Study. bioRxiv, p.198341., bioRxiv 1 56 October 2017 1549-960X
Rights
bioRxiv
Rights
Use of this resource is governed by the terms and conditions of the bioRxiv Open Access Statement
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Tastan Bishop, Ozlem (Prof)
RU Department of Biochemistry, Microbiology and Bioinformatics
SDG 03. Good Health and Well-Being
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