Role of Repeated Conformational Transitions in Substrate Binding of Adenylate Kinase
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TLDR
It is shown that the repeated conformational transitions of adenylate kinase are essential for the relaxation of incorrectly bound substrates into the catalytically competent conformation by combining all-atom and coarse-grained molecular simulations.Abstract:
The catalytic cycle of the enzyme adenylate kinase involves large conformational motions between open and closed states. A previous single-molecule experiment showed that substrate binding tends to accelerate both the opening and the closing rates and that a single turnover event often involves multiple rounds of conformational switching. In this work, we showed that the repeated conformational transitions of adenylate kinase are essential for the relaxation of incorrectly bound substrates into the catalytically competent conformation by combining all-atom and coarse-grained molecular simulations. In addition, free energy calculations based on all-atom and coarse-grained models demonstrated that the enzyme with incorrectly bound substrates has much a lower free energy barrier for domain opening compared to that with the correct substrate conformation, which may explain the the acceleration of the domain opening rate by substrate binding. The results of this work provide mechanistic understanding to previous experimental observations and shed light onto the interplay between conformational dynamics and enzyme catalysis.read more
Citations
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Journal ArticleDOI
Mechanistic Basis for a Connection between the Catalytic Step and Slow Opening Dynamics of Adenylate Kinase
TL;DR: In this article , the authors used quantum mechanical and molecular mechanical calculations to compute a free energy barrier for the catalytic event in Escherichia coli adenylate kinase (AdK).
Journal ArticleDOI
Allosteric communication between ligand binding domains modulates substrate inhibition in adenylate kinase
David Scheerer,Bharat V. Adkar,Sanchari Bhattacharyya,Dorit Levy,Marija Iljina,Inbal Riven,Orly Dym,Gilad Haran,Eugene I. Shakhnovich +8 more
TL;DR: In this article , the authors studied the effect of substrate inhibition by AMP and its correlation with domain motions and showed that AMP does not block access to the ATP binding site, neither by competitive binding to the cognate site nor by directly closing the LID domain.
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Tackling Hysteresis in Conformational Sampling: How to Be Forgetful with MEMENTO
TL;DR: In this article , a template-based structure modeling approach is proposed to restore physically reasonable protein conformations based on coordinate interpolation (morphing) as an ensemble of plausible intermediates, from which a smooth path is picked.
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From Microstates to Macrostates in the Conformational Dynamics of GroEL: a Single-Molecule FRET Study
Demian Liebermann,Jakub Jungwirth,Inbal Riven,Yoav Barak,Dorit Levy,Amnon Horovitz,Gilad Haran +6 more
TL;DR: In this paper, single-molecule FRET measurements were used to directly probe the conformational transitions of one subunit within GroEL and its single-ring variant under equilibrium conditions, showing that the motions of an individual subunit are directly coupled to the concerted allosteric mechanism of GroEL.
Posted ContentDOI
Allosteric communication between ligand binding domains modulates substrate inhibition in adenylate kinase
Patricio Olguín,Keshav K. Singh +1 more
TL;DR: In this article , the authors studied the effect of substrate inhibition by AMP and its correlation with domain motions in the three-domain enzyme adenylate kinase (AK) and showed that AMP does not block access to the ATP binding site, neither by competitive binding to the cognate site nor by directly closing the LID domain.
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