To understand the role of sequence connectivity in the folding pathway of a multi-state protein, we have analysed the folding kinetics of an engineered circularly permuted PDZ domain. This variant has been designed with the specific aim of posing two of the strands participating in the stabilisation of an early folding nucleus as contiguous elements in the primary structure. Folding of the circularly permuted PDZ2 has been explored by a variety of different experimental approaches including stopped-flow and continuous-flow kinetics, as well as ligand-induced folding experiments. Data reveal that although circular permutation introduces a significant destabilisation of the native state, a folding intermediate is stabilised and accumulated prior folding. Furthermore, quantitative analysis of the observed kinetics indicates an acceleration of the early folding events by more than two orders of magnitude. The results support the importance of sequence connectivity both in the mechanism and the speed of protein folding. © The Author 2008. Published by Oxford University Press. All rights reserved.

The folding pathway of an engineered circularly permuted PDZ domain / Y., Ivarsson; TRAVAGLINI ALLOCATELLI, Carlo; V., Morea; Brunori, Maurizio; Gianni, Stefano. - In: PROTEIN ENGINEERING, DESIGN & SELECTION. - ISSN 1741-0126. - 21:3(2008), pp. 155-160. [10.1093/protein/gzm077]

The folding pathway of an engineered circularly permuted PDZ domain

TRAVAGLINI ALLOCATELLI, Carlo;BRUNORI, Maurizio;GIANNI, STEFANO
2008

Abstract

To understand the role of sequence connectivity in the folding pathway of a multi-state protein, we have analysed the folding kinetics of an engineered circularly permuted PDZ domain. This variant has been designed with the specific aim of posing two of the strands participating in the stabilisation of an early folding nucleus as contiguous elements in the primary structure. Folding of the circularly permuted PDZ2 has been explored by a variety of different experimental approaches including stopped-flow and continuous-flow kinetics, as well as ligand-induced folding experiments. Data reveal that although circular permutation introduces a significant destabilisation of the native state, a folding intermediate is stabilised and accumulated prior folding. Furthermore, quantitative analysis of the observed kinetics indicates an acceleration of the early folding events by more than two orders of magnitude. The results support the importance of sequence connectivity both in the mechanism and the speed of protein folding. © The Author 2008. Published by Oxford University Press. All rights reserved.
2008
circular permutation; intermediates; kinetics; protein folding; transition state; transition-state
01 Pubblicazione su rivista::01a Articolo in rivista
The folding pathway of an engineered circularly permuted PDZ domain / Y., Ivarsson; TRAVAGLINI ALLOCATELLI, Carlo; V., Morea; Brunori, Maurizio; Gianni, Stefano. - In: PROTEIN ENGINEERING, DESIGN & SELECTION. - ISSN 1741-0126. - 21:3(2008), pp. 155-160. [10.1093/protein/gzm077]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/358132
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