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High-resolution structures of the actomyosin-V complex in three nucleotide states provide insights into the force generation mechanism

Sabrina Pospich, H. Lee Sweeney, Anne Houdusse, Stefan Raunser

2021eLife52 citationsDOIOpen Access PDF

Abstract

The molecular motor myosin undergoes a series of major structural transitions during its force-producing motor cycle. The underlying mechanism and its coupling to ATP hydrolysis and actin binding are only partially understood, mostly due to sparse structural data on actin-bound states of myosin. Here, we report 26 high-resolution cryo-EM structures of the actomyosin-V complex in the strong-ADP, rigor, and a previously unseen post-rigor transition state that binds the ATP analog AppNHp. The structures reveal a high flexibility of myosin in each state and provide valuable insights into the structural transitions of myosin-V upon ADP release and binding of AppNHp, as well as the actomyosin interface. In addition, they show how myosin is able to specifically alter the structure of F-actin.

Topics & Concepts

MyosinMyosin headActinBiophysicsATP hydrolysisMolecular motorFlexibility (engineering)ChemistryTransition (genetics)Myosin light-chain kinaseBiochemistryBiologyATPaseEnzymeStatisticsMathematicsGeneCardiomyopathy and Myosin StudiesForce Microscopy Techniques and ApplicationsCardiovascular Effects of Exercise
High-resolution structures of the actomyosin-V complex in three nucleotide states provide insights into the force generation mechanism | Litcius