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Transiently populated intermediate functions as a branching point of the FF domain folding pathway.


ABSTRACT: Studies of protein folding and the intermediates that are formed along the folding pathway provide valuable insights into the process by which an unfolded ensemble forms a functional native conformation. However, because intermediates on folding pathways can serve as initiation points of aggregation (implicated in a number of diseases), their characterization assumes an even greater importance. Establishing the role of such intermediates in folding, misfolding, and aggregation remains a major challenge due to their often low populations and short lifetimes. We recently used NMR relaxation dispersion methods and computational techniques to determine an atomic resolution structure of the folding intermediate of a small protein module--the FF domain--with an equilibrium population of 2-3% and a millisecond lifetime, 25 °C. Based on this structure a variant FF domain has been designed in which the native state is selectively destabilized by removing the carboxyl-terminal helix in the native structure to produce a highly populated structural mimic of the intermediate state. Here, we show via solution NMR studies of the designed mimic that the mimic forms distinct conformers corresponding to monomeric and dimeric (K(d) = 0.2 mM) forms of the protein. The conformers exchange on the seconds timescale with a monomer association rate of 1.1 · 10(4) M(-1) s(-1) and with a region responsible for dimerization localized to the amino-terminal residues of the FF domain. This study establishes the FF domain intermediate as a central player in both folding and misfolding pathways and illustrates how incomplete folding can lead to the formation of higher-order structures.

SUBMITTER: Korzhnev DM 

PROVIDER: S-EPMC3497754 | biostudies-literature | 2012 Oct

REPOSITORIES: biostudies-literature

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Transiently populated intermediate functions as a branching point of the FF domain folding pathway.

Korzhnev Dmitry M DM   Religa Tomasz L TL   Kay Lewis E LE  

Proceedings of the National Academy of Sciences of the United States of America 20120530 44


Studies of protein folding and the intermediates that are formed along the folding pathway provide valuable insights into the process by which an unfolded ensemble forms a functional native conformation. However, because intermediates on folding pathways can serve as initiation points of aggregation (implicated in a number of diseases), their characterization assumes an even greater importance. Establishing the role of such intermediates in folding, misfolding, and aggregation remains a major ch  ...[more]

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