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Simulating disorder-order transitions in molecular recognition of unstructured proteins: where folding meets binding.


ABSTRACT: A microscopic study of functional disorder-order folding transitions coupled to binding is performed for the p27 protein, which derives a kinetic advantage from the intrinsically disordered unbound form on binding with the phosphorylated cyclin A-cyclin-dependent kinase 2 (Cdk2) complex. Hierarchy of structural loss during p27 coupled unfolding and unbinding is simulated by using high-temperature Monte Carlo simulations initiated from the crystal structure of the tertiary complex. Subsequent determination of the transition-state ensemble and the proposed atomic picture of the folding mechanism coupled to binding provide a microscopic rationale that reconciles the initiation recruitment of p27 at the cyclin A docking site with the kinetic benefit for a disordered alpha-helix in the unbound form of p27. The emerging structural polarization in the ensemble of unfolding/unbinding trajectories and in the computationally determined transition-state ensemble is not determined by the intrinsic folding preferences of p27 but rather is attributed to the topological requirements of the native intermolecular interface to order beta-hairpin and beta-strand of p27 that could be critical for nucleating rapid folding transition coupled to binding. In agreement with the experimental data, the disorder-order folding transition for p27 is largely determined by the functional requirement to form a specific intermolecular interface that ultimately dictates the folding mechanism and overwhelms any local folding preferences for creating a stable alpha-helix in the p27 structure before overcoming the major free energy barrier.

SUBMITTER: Verkhivker GM 

PROVIDER: S-EPMC154313 | biostudies-literature | 2003 Apr

REPOSITORIES: biostudies-literature

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Simulating disorder-order transitions in molecular recognition of unstructured proteins: where folding meets binding.

Verkhivker Gennady M GM   Bouzida Djamal D   Gehlhaar Daniel K DK   Rejto Paul A PA   Freer Stephan T ST   Rose Peter W PW  

Proceedings of the National Academy of Sciences of the United States of America 20030415 9


A microscopic study of functional disorder-order folding transitions coupled to binding is performed for the p27 protein, which derives a kinetic advantage from the intrinsically disordered unbound form on binding with the phosphorylated cyclin A-cyclin-dependent kinase 2 (Cdk2) complex. Hierarchy of structural loss during p27 coupled unfolding and unbinding is simulated by using high-temperature Monte Carlo simulations initiated from the crystal structure of the tertiary complex. Subsequent det  ...[more]

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