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Method to extract multiple states in F1-ATPase rotation experiments from jump distributions.


ABSTRACT: A method is proposed for analyzing fast (10 ?s) single-molecule rotation trajectories in F1 adenosinetriphosphatase ([Formula: see text]-ATPase). This method is based on the distribution of jumps in the rotation angle that occur in the transitions during the steps between subsequent catalytic dwells. The method is complementary to the "stalling" technique devised by H. Noji et al. [Biophys. Rev. 9, 103-118, 2017], and can reveal multiple states not directly detectable as steps. A bimodal distribution of jumps is observed at certain angles, due to the system being in either of 2 states at the same rotation angle. In this method, a multistate theory is used that takes into account a viscoelastic fluctuation of the imaging probe. Using an established sequence of 3 specific states, a theoretical profile of angular jumps is predicted, without adjustable parameters, that agrees with experiment for most of the angular range. Agreement can be achieved at all angles by assuming a fourth state with an ?10 ?s lifetime and a dwell angle about 40° after the adenosine 5'-triphosphate (ATP) binding dwell. The latter result suggests that the ATP binding in one ? subunit and the adenosine 5'-diphosphate (ADP) release from another ? subunit occur via a transient whose lifetime is ?10 ?s and is about 6 orders of magnitude smaller than the lifetime for ADP release from a singly occupied [Formula: see text]-ATPase. An internal consistency test is given by comparing 2 independent ways of obtaining the relaxation time of the probe. They agree and are ?15 ?s.

SUBMITTER: Volkan-Kacso S 

PROVIDER: S-EPMC6926002 | biostudies-literature | 2019 Dec

REPOSITORIES: biostudies-literature

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Method to extract multiple states in F<sub>1</sub>-ATPase rotation experiments from jump distributions.

Volkán-Kacsó Sándor S   Le Luan Q LQ   Zhu Kaicheng K   Su Haibin H   Marcus Rudolph A RA  

Proceedings of the National Academy of Sciences of the United States of America 20191127 51


A method is proposed for analyzing fast (10 μs) single-molecule rotation trajectories in F<sub>1</sub> adenosinetriphosphatase ([Formula: see text]-ATPase). This method is based on the distribution of jumps in the rotation angle that occur in the transitions during the steps between subsequent catalytic dwells. The method is complementary to the "stalling" technique devised by H. Noji et al. [<i>Biophys. Rev.</i> 9, 103-118, 2017], and can reveal multiple states not directly detectable as steps.  ...[more]

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