F₀-F₁ coupling and symmetry mismatch in ATP synthase resolved in every F₀ rotation step

Abstract

The F₀F₁ ATP synthase, essential for cellular energy production, is composed of the F₀ and F₁ rotary motors. While both F₀ and F₁ have pseudo-symmetric structures, their symmetries do not match. How the symmetry mismatch is solved remains elusive due to missing intermediate structures of rotational steps. Here, for ATP synthases with 3- and 10-fold symmetries in F₁ and F₀, respectively, we uncovered the mechanical couplings between F₀ and F₁ at every 36° rotation step via molecular dynamics simulations and comparison of cryo-electron microscopy structures from three species. We found that the frustration is shared by several elements. The F₁ stator partially rotates relative to the F₀ stator via elastic distortion of the b-subunits. The rotor can be distorted. The c-ring rotary angles can be deviated from symmetric ones. Additionally, the F₁ motor may take non-canonical structures relieving stronger frustration. Together, we provide comprehensive understanding to solve the symmetry mismatch.