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Issue 4, 2008
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Coupling between global dynamics and signal transduction pathways: a mechanism of allostery for chaperonin GroEL

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Abstract

Despite significant efforts toward understanding the molecular basis of allosteric communication, the mechanisms by which local energetic and conformational changes cooperatively diffuse from ligand-binding sites to distal regions across the 3-dimensional structure of allosteric proteins remain to be established. Recent experimental and theoretical evidence supports the view that allosteric communication is facilitated by the intrinsic ability of the biomolecules to undergo collective changes in structure, triggered by ligand binding. Two groups of studies recently proved to provide insights into such intrinsic, structure-induced effects: elastic network models that permit us to visualize the cooperative changes in conformation that are most readily accessible near native state conditions, and information-theoretic approaches that elucidate the most efficient pathways of signal transmission favored by the overall architecture. Using a combination of these two approaches, we highlight, by way of application to the bacterial chaperonin complex GroEL-GroES, how the most cooperative modes of motion play a role in mediating the propagation of allosteric signals. A functional coupling between the global dynamics sampled under equilibrium conditions and the signal transduction pathways inherently favored by network topology appears to control allosteric effects.

Graphical abstract: Coupling between global dynamics and signal transduction pathways: a mechanism of allostery for chaperonin GroEL

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Publication details

The article was received on 19 Nov 2007, accepted on 17 Jan 2008 and first published on 20 Feb 2008


Article type: Highlight
DOI: 10.1039/B717819K
Citation: Mol. BioSyst., 2008,4, 287-292
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    Coupling between global dynamics and signal transduction pathways: a mechanism of allostery for chaperonin GroEL

    C. Chennubhotla, Z. Yang and I. Bahar, Mol. BioSyst., 2008, 4, 287
    DOI: 10.1039/B717819K

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