Literature DB >> 28089447

Networks of Dynamic Allostery Regulate Enzyme Function.

Michael Joseph Holliday1, Carlo Camilloni2, Geoffrey Stuart Armstrong3, Michele Vendruscolo4, Elan Zohar Eisenmesser5.   

Abstract

Many protein systems rely on coupled dynamic networks to allosterically regulate function. However, the broad conformational space sampled by non-coherently dynamic systems has precluded detailed analysis of their communication mechanisms. Here, we have developed a methodology that combines the high sensitivity afforded by nuclear magnetic resonance relaxation techniques and single-site multiple mutations, termed RASSMM, to identify two allosterically coupled dynamic networks within the non-coherently dynamic enzyme cyclophilin A. Using this methodology, we discovered two key hotspot residues, Val6 and Val29, that communicate through these networks, the mutation of which altered active-site dynamics, modulating enzymatic turnover of multiple substrates. Finally, we utilized molecular dynamics simulations to identify the mechanism by which one of these hotspots is coupled to the larger dynamic networks. These studies confirm a link between enzyme dynamics and the catalytic cycle of cyclophilin A and demonstrate how dynamic allostery may be engineered to tune enzyme function.
Copyright © 2017 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  allostery; cyclophilin A; dynamics; isomerization; nuclear magnetic resonance; protein engineering

Mesh:

Substances:

Year:  2017        PMID: 28089447      PMCID: PMC5336394          DOI: 10.1016/j.str.2016.12.003

Source DB:  PubMed          Journal:  Structure        ISSN: 0969-2126            Impact factor:   5.006


  43 in total

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8.  Determination of the Full Catalytic Cycle among Multiple Cyclophilin Family Members and Limitations on the Application of CPMG-RD in Reversible Catalytic Systems.

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