Parallel protein-unfolding pathways revealed and mapped

Caroline F Wright; Kresten Lindorff-Larsen; Lucy G Randles; Jane Clarke

doi:10.1038/nsb947

Parallel protein-unfolding pathways revealed and mapped

Caroline F Wright, Kresten Lindorff-Larsen, Lucy G Randles, Jane Clarke

148 Citations (Scopus)

Abstract

Theoretical studies of protein folding suggest that multiple folding pathways should exist, but there is little experimental evidence to support this. Here we demonstrate changes in the flux between different transition states on parallel folding pathways, resulting in unprecedented upward curvature in the denaturant-dependent unfolding kinetics of a beta-sandwich protein. As denaturant concentration increases, the highly compact transition state of one pathway becomes destabilized and the dominant flux of protein molecules shifts toward another pathway with a less structured transition state. Furthermore, point mutations alter the relative accessibility of the pathways, allowing the structure of two transition states on separate, direct folding pathways to be mapped by systematic Phi-value analysis. It has been suggested that pathways with diffuse rather than localized transition states are evolutionarily selected to prevent misfolding, and indeed we find that the transition state favored at high concentrations of denaturant is more polarized than the physiologically relevant one.

Original language	English
Journal	Nature Structural and Molecular Biology
Volume	10
Issue number	8
Pages (from-to)	658-62
Number of pages	5
ISSN	1545-9993
DOIs	https://doi.org/10.1038/nsb947
Publication status	Published - 2003
Externally published	Yes

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title = "Parallel protein-unfolding pathways revealed and mapped",

abstract = "Theoretical studies of protein folding suggest that multiple folding pathways should exist, but there is little experimental evidence to support this. Here we demonstrate changes in the flux between different transition states on parallel folding pathways, resulting in unprecedented upward curvature in the denaturant-dependent unfolding kinetics of a beta-sandwich protein. As denaturant concentration increases, the highly compact transition state of one pathway becomes destabilized and the dominant flux of protein molecules shifts toward another pathway with a less structured transition state. Furthermore, point mutations alter the relative accessibility of the pathways, allowing the structure of two transition states on separate, direct folding pathways to be mapped by systematic Phi-value analysis. It has been suggested that pathways with diffuse rather than localized transition states are evolutionarily selected to prevent misfolding, and indeed we find that the transition state favored at high concentrations of denaturant is more polarized than the physiologically relevant one.",

author = "Wright, {Caroline F} and Kresten Lindorff-Larsen and Randles, {Lucy G} and Jane Clarke",

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T1 - Parallel protein-unfolding pathways revealed and mapped

AU - Wright, Caroline F

AU - Lindorff-Larsen, Kresten

AU - Randles, Lucy G

AU - Clarke, Jane

PY - 2003

Y1 - 2003

N2 - Theoretical studies of protein folding suggest that multiple folding pathways should exist, but there is little experimental evidence to support this. Here we demonstrate changes in the flux between different transition states on parallel folding pathways, resulting in unprecedented upward curvature in the denaturant-dependent unfolding kinetics of a beta-sandwich protein. As denaturant concentration increases, the highly compact transition state of one pathway becomes destabilized and the dominant flux of protein molecules shifts toward another pathway with a less structured transition state. Furthermore, point mutations alter the relative accessibility of the pathways, allowing the structure of two transition states on separate, direct folding pathways to be mapped by systematic Phi-value analysis. It has been suggested that pathways with diffuse rather than localized transition states are evolutionarily selected to prevent misfolding, and indeed we find that the transition state favored at high concentrations of denaturant is more polarized than the physiologically relevant one.

AB - Theoretical studies of protein folding suggest that multiple folding pathways should exist, but there is little experimental evidence to support this. Here we demonstrate changes in the flux between different transition states on parallel folding pathways, resulting in unprecedented upward curvature in the denaturant-dependent unfolding kinetics of a beta-sandwich protein. As denaturant concentration increases, the highly compact transition state of one pathway becomes destabilized and the dominant flux of protein molecules shifts toward another pathway with a less structured transition state. Furthermore, point mutations alter the relative accessibility of the pathways, allowing the structure of two transition states on separate, direct folding pathways to be mapped by systematic Phi-value analysis. It has been suggested that pathways with diffuse rather than localized transition states are evolutionarily selected to prevent misfolding, and indeed we find that the transition state favored at high concentrations of denaturant is more polarized than the physiologically relevant one.

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DO - 10.1038/nsb947

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VL - 10

SP - 658

EP - 662

JO - Nature Structural and Molecular Biology

JF - Nature Structural and Molecular Biology

IS - 8

ER -

Parallel protein-unfolding pathways revealed and mapped

Abstract

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