Cryo-EM structures of the actomyosin-V complex in three nucleotide states reveal high flexibility and provide insights into structural transitions upon ADP release and AppNHp binding.
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.
Pospich et al. (Tue,) reported a other. Cryo-EM structures of the actomyosin-V complex in three nucleotide states reveal high flexibility and provide insights into structural transitions upon ADP release and AppNHp binding.
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