Much of our current knowledge of biological chemistry is founded in the structure-function relationship, whereby sequence determines structure that determines function. Thus, the discovery that a large fraction of the proteome is intrinsically disordered, while being functional, has revolutionized our understanding of proteins and raised new and interesting questions. Many intrinsically disordered proteins (IDPs) have been determined to undergo a disorder to order transition when recognizing their physiological partners, suggesting their mechanisms of folding are intrinsically different from those observed in globular proteins. However, IDPs also follow some of the classic paradigms established for globular proteins, pointing to important similarities in their behavior. In this review, we compare and contrast the folding mechanisms of globular proteins with the emerging features of binding- induced folding of intrinsically disordered order transitions of intrinsically disordered proteins appear to follow rules of globular protein folding such as the cooperative nature of the reaction, their folding pathways are remarkably more malleable, due to the heterogeneous nature of their folding nuclei, as probed by analysis of linear free energy relationship plots. These insights have led to a new model for the disorder-to-order transition in IDPs termed ‘templated folding’, whereby the binding partner dictates distinct structural transitions en route to product, while ensuring a co-operative folding.

Templated folding of intrinsically disordered proteins / Toto, Angelo; Malagrinò, Francesca; Visconti, Lorenzo; Troilo, Francesca; Pagano, Livia; Brunori, Maurizio; Jemth, Per; Gianni, Stefano. - In: THE JOURNAL OF BIOLOGICAL CHEMISTRY. - ISSN 0021-9258. - 295:19(2020), pp. 6586-6593. [10.1074/jbc.REV120.012413]

Templated folding of intrinsically disordered proteins

Toto, Angelo
Primo
;
Malagrinò, Francesca;Visconti, Lorenzo;Troilo, Francesca;Pagano, Livia;Brunori, Maurizio;Gianni, Stefano
Ultimo
2020

Abstract

Much of our current knowledge of biological chemistry is founded in the structure-function relationship, whereby sequence determines structure that determines function. Thus, the discovery that a large fraction of the proteome is intrinsically disordered, while being functional, has revolutionized our understanding of proteins and raised new and interesting questions. Many intrinsically disordered proteins (IDPs) have been determined to undergo a disorder to order transition when recognizing their physiological partners, suggesting their mechanisms of folding are intrinsically different from those observed in globular proteins. However, IDPs also follow some of the classic paradigms established for globular proteins, pointing to important similarities in their behavior. In this review, we compare and contrast the folding mechanisms of globular proteins with the emerging features of binding- induced folding of intrinsically disordered order transitions of intrinsically disordered proteins appear to follow rules of globular protein folding such as the cooperative nature of the reaction, their folding pathways are remarkably more malleable, due to the heterogeneous nature of their folding nuclei, as probed by analysis of linear free energy relationship plots. These insights have led to a new model for the disorder-to-order transition in IDPs termed ‘templated folding’, whereby the binding partner dictates distinct structural transitions en route to product, while ensuring a co-operative folding.
2020
folding kinetics; mutagenesis; transition state; reaction mechanism
01 Pubblicazione su rivista::01a Articolo in rivista
Templated folding of intrinsically disordered proteins / Toto, Angelo; Malagrinò, Francesca; Visconti, Lorenzo; Troilo, Francesca; Pagano, Livia; Brunori, Maurizio; Jemth, Per; Gianni, Stefano. - In: THE JOURNAL OF BIOLOGICAL CHEMISTRY. - ISSN 0021-9258. - 295:19(2020), pp. 6586-6593. [10.1074/jbc.REV120.012413]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1401188
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