Maxim B. Prigozhin, Yi Zhang, Klaus Schulten, Martin Gruebele, and Taras V.
Pogorelov.
Fast pressure-jump all-atom simulations and experiments reveal
site-specific protein dehydration-folding dynamics.
Proceedings of the National Academy of Sciences, USA,
116:5356-5361, 2019.
(PMC: PMC6431218)
PRIG2019
As theory and experiment have shown, protein dehydration is a major
contributor to protein folding. Dehydration upon folding can be
characterized directly by all-atom simulations of fast pressure
drops, which create desolvated pockets inside the nascent
hydrophobic core. Here, we study pressure-drop refolding of three
-repressor fragment (
) mutants computationally
and
experimentally. The three mutants report on tertiary structure
formation via different fluorescent helix–helix contact pairs. All-
atom simulations of pressure drops capture refolding and unfolding
of all three mutants by a similar mechanism, thus validating the
nonperturbative nature of the fluorescent contact probes. Analysis
of simulated interprobe distances shows that the -helix 1–3
pair distance displays a slower characteristic time scale than the
1–2 or 3–2 pair distance. To see whether slow packing of -helices 1
and 3 is reflected in the rate-limiting folding step, fast pressure-
drop relaxation experiments captured refolding on a millisecond time
scale. These experiments reveal that refolding monitored by 1–3
contact formation indeed is much slower than when monitored by 1–2
or 3–2 contact formation. Unlike the case of the two-state folder
[three–-helix bundle (D)], whose drying and core
formation proceed in concert,
repeatedly dries and rewets
different local tertiary contacts before finally forming a solvent-
excluded core, explaining the non–two-state behavior observed during
refolding in molecular dynamics simulations. This work demonstrates
that proteins can explore desolvated pockets and dry globular states
numerous times before reaching the native conformation.
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