Salavat R. Nabiev scite author profile

A two-beam optical trap was used to measure the bending stiffness of F-actin and reconstructed thin filaments. A dumbbell was formed by a filament segment attached to two beads that were held in the two optical traps. One trap was static and held a bead used as a force transducer, whereas an acoustooptical deflector moved the beam holding the second bead, causing stretch of the dumbbell. The distance between the beads was measured using image analysis of micrographs. An exact solution to the problem of bending of an elastic filament attached to two beads and subjected to a stretch was used for data analysis. Substitution of noncanonical residues in the central part of tropomyosin with canonical ones, G126R and D137L, and especially their combination, caused an increase in the bending stiffness of the thin filaments. The data confirm that the effect of these mutations on the regulation of actin-myosin interactions may be caused by an increase in tropomyosin stiffness.

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Cooperativity of myosin interaction with thin filaments is enhanced by stabilizing substitutions in tropomyosin

Shchepkin

Nabiev

Kopylova

et al. 2017

J Muscle Res Cell Motil

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Muscle contraction is powered by myosin interaction with actin-based thin filaments containing Ca-regulatory proteins, tropomyosin and troponin. Coiled-coil tropomyosin molecules form a long helical strand that winds around actin filament and either shields actin from myosin binding or opens it. Non-canonical residues G126 and D137 in the central part of tropomyosin destabilize its coiled-coil structure. Their substitutions for canonical ones, G126R and D137L, increase structural stability and the velocity of sliding of reconstructed thin filaments along myosin coated surface. The effect of these stabilizing mutations on force of the actin-myosin interaction is unknown. It also remains unclear whether the stabilization affects single actin-myosin interactions or it modifies the cooperativity of the binding of myosin molecules to actin. We used an optical trap to measure the effects of the stabilization on step size, unitary force and duration of the interactions at low and high load and compared the results with those obtained in an in vitro motility assay. We found that significant prolongation of lifetime of the actin-myosin complex under high load observed at high extent of tropomyosin stabilization, i.e. with double mutant, G126R/D137L, correlates with higher force in the motility assay. Also, the higher the extent of stabilization of tropomyosin, the fewer myosin molecules are needed to propel the thin filaments. The data suggest that the effects of the stabilizing mutations in tropomyosin on the myosin interaction with regulated thin filaments are mainly realized via cooperative mechanisms by increasing the size of cooperative unit.

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The interchain disulfide cross-linking of tropomyosin alters its regulatory properties and interaction with actin filament

Matyushenko

Artemova

Shchepkin

et al. 2017

Biochemical and Biophysical Research Communications

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Changes in rat myocardium contractility under subchronic intoxication with lead and cadmium salts administered alone or in combination

et al. 2020

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Salavat R. Nabiev

The effects of cardiomyopathy-associated mutations in the head-to-tail overlap junction of α-tropomyosin on its properties and interaction with actin

Stabilizing the Central Part of Tropomyosin Increases the Bending Stiffness of the Thin Filament

Cooperativity of myosin interaction with thin filaments is enhanced by stabilizing substitutions in tropomyosin

The interchain disulfide cross-linking of tropomyosin alters its regulatory properties and interaction with actin filament

Changes in rat myocardium contractility under subchronic intoxication with lead and cadmium salts administered alone or in combination

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