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Single-molecule fluorescence spectroscopy maps the folding landscape of a large protein.


ABSTRACT: Proteins attain their function only after folding into a highly organized three-dimensional structure. Much remains to be learned about the mechanisms of folding of large multidomain proteins, which may populate metastable intermediate states on their energy landscapes. Here we introduce a novel method, based on high-throughput single-molecule fluorescence experiments, which is specifically geared towards tracing the dynamics of folding in the presence of a plethora of intermediates. We employ this method to characterize the folding reaction of a three-domain protein, adenylate kinase. Using thousands of single-molecule trajectories and hidden Markov modelling, we identify six metastable states on adenylate kinase's folding landscape. Remarkably, the connectivity of the intermediates depends on denaturant concentration; at low concentration, multiple intersecting folding pathways co-exist. We anticipate that the methodology introduced here will find broad applicability in the study of folding of large proteins, and will provide a more realistic scenario of their conformational dynamics.

SUBMITTER: Pirchi M 

PROVIDER: S-EPMC3209527 | biostudies-literature | 2011 Oct

REPOSITORIES: biostudies-literature

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Single-molecule fluorescence spectroscopy maps the folding landscape of a large protein.

Pirchi Menahem M   Ziv Guy G   Riven Inbal I   Cohen Sharona Sedghani SS   Zohar Nir N   Barak Yoav Y   Haran Gilad G  

Nature communications 20111011


Proteins attain their function only after folding into a highly organized three-dimensional structure. Much remains to be learned about the mechanisms of folding of large multidomain proteins, which may populate metastable intermediate states on their energy landscapes. Here we introduce a novel method, based on high-throughput single-molecule fluorescence experiments, which is specifically geared towards tracing the dynamics of folding in the presence of a plethora of intermediates. We employ t  ...[more]

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