The thermodynamics of proteins designed on three common folds (SH3, chymotrypsin inhibitor 2 [CI2], and protein G) is studied with a simplified C α model and compared with the thermodynamics of proteins designed on random-generated folds. The model allows to design sequences to fold within a dRMSD ranging from 1.2 to 4.2 Å from the crystallographic native conformation and to study properties that are hard to be measured experimentally. It is found that the denatured state of all of them is not random but is, to different extents, partially structured. The degree of structure is more abundant for SH3 and protein G, giving rise to a weaker stability but a more efficient folding kinetics than CI2 and, even more, than the random-generated folds. Consequently, the features of the unfolded state seem to be as important in the determination of the thermodynamic properties of these proteins as the features of the native state.

The denatured state is critical in determining the properties of model proteins designed on different folds / A. Amatori, G. Tiana, J. Ferkinghoff-Borg, R.A. Broglia. - In: PROTEINS. - ISSN 0887-3585. - 70:3(2008), pp. 1047-1055.

The denatured state is critical in determining the properties of model proteins designed on different folds

G. Tiana
Secondo
;
R.A. Broglia
Ultimo
2008

Abstract

The thermodynamics of proteins designed on three common folds (SH3, chymotrypsin inhibitor 2 [CI2], and protein G) is studied with a simplified C α model and compared with the thermodynamics of proteins designed on random-generated folds. The model allows to design sequences to fold within a dRMSD ranging from 1.2 to 4.2 Å from the crystallographic native conformation and to study properties that are hard to be measured experimentally. It is found that the denatured state of all of them is not random but is, to different extents, partially structured. The degree of structure is more abundant for SH3 and protein G, giving rise to a weaker stability but a more efficient folding kinetics than CI2 and, even more, than the random-generated folds. Consequently, the features of the unfolded state seem to be as important in the determination of the thermodynamic properties of these proteins as the features of the native state.
Settore FIS/03 - Fisica della Materia
Settore FIS/04 - Fisica Nucleare e Subnucleare
2008
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/35757
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