Much experimental work has been devoted in comparing the folding behavior of proteins sharing the same fold but different sequence. The recent design of proteins displaying very high sequence identities but different 3D structure allows the unique opportunity to address the protein-folding problem from a comple- mentary perspective. Here we explored by Φ-value analysis the pathways of folding of three different heteromorphic pairs, dis- playing increasingly high-sequence identity (namely, 30%, 77%, and 88%), but different structures called GA (a 3-α helix fold) and GB (an α∕β fold). The analysis, based on 132 site-directed mutants, is fully consistent with the idea that protein topology is committed very early along the pathway of folding. Furthermore, data reveals that when folding approaches a perfect two-state scenario, as in the case of the GA domains, the structural features of the transition state appear very robust to changes in sequence composition. On the other hand, when folding is more complex and multistate, as for the GB s, there are alternative nuclei or accessible pathways that can be alternatively stabilized by altering the primary structure. The implications of our results in the light of previous work on the folding of different members belonging to the same protein family are discussed.

Folding pathways of proteins with increasing degree of sequence identities but different structure and function / Giri, Rajanish; Morrone, Angela; TRAVAGLINI ALLOCATELLI, Carlo; Jemth, P; Brunori, Maurizio; Gianni, Stefano. - In: PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. - ISSN 1091-6490. - 109:(2012), pp. 17772-17776. [10.1073/pnas.1201794109]

Folding pathways of proteins with increasing degree of sequence identities but different structure and function

GIRI, RAJANISH;MORRONE, ANGELA;TRAVAGLINI ALLOCATELLI, Carlo;BRUNORI, Maurizio;GIANNI, STEFANO
2012

Abstract

Much experimental work has been devoted in comparing the folding behavior of proteins sharing the same fold but different sequence. The recent design of proteins displaying very high sequence identities but different 3D structure allows the unique opportunity to address the protein-folding problem from a comple- mentary perspective. Here we explored by Φ-value analysis the pathways of folding of three different heteromorphic pairs, dis- playing increasingly high-sequence identity (namely, 30%, 77%, and 88%), but different structures called GA (a 3-α helix fold) and GB (an α∕β fold). The analysis, based on 132 site-directed mutants, is fully consistent with the idea that protein topology is committed very early along the pathway of folding. Furthermore, data reveals that when folding approaches a perfect two-state scenario, as in the case of the GA domains, the structural features of the transition state appear very robust to changes in sequence composition. On the other hand, when folding is more complex and multistate, as for the GB s, there are alternative nuclei or accessible pathways that can be alternatively stabilized by altering the primary structure. The implications of our results in the light of previous work on the folding of different members belonging to the same protein family are discussed.
2012
Protein Folding; Protein engineering; Reaction kinetics
01 Pubblicazione su rivista::01a Articolo in rivista
Folding pathways of proteins with increasing degree of sequence identities but different structure and function / Giri, Rajanish; Morrone, Angela; TRAVAGLINI ALLOCATELLI, Carlo; Jemth, P; Brunori, Maurizio; Gianni, Stefano. - In: PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. - ISSN 1091-6490. - 109:(2012), pp. 17772-17776. [10.1073/pnas.1201794109]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/486644
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