Six states of Enterococcus hirae V-type ATPase reveals non-uniform rotor rotation during turnover

Abstract

SummaryThe vacuolar-type ATPase from Enterococcus hirae (EhV-ATPase) is a thus-far unique adaptation of V-ATPases, as it performs Na+ transport and demonstrates an off-axis rotor assembly. Recent single molecular studies of the isolated V1 domain have indicated that there are subpauses within the three major states of the pseudo three-fold symmetric rotary enzyme. However, there was no structural evidence for these. Herein we activated the EhV-ATPase complex with ATP and identified multiple structures consisting of a total of six states of this complex by using cryo-electron microscopy. The orientations of the rotor complex during turnover, especially in the intermediates, were not as perfectly uniform as expected. The densities in the nucleotide binding pockets in the V1 domain indicated the different catalytic conditions for the six conformations. The off-axis rotor and its’ interactions with the stator a-subunit during rotation suggests that this non-uniform rotor rotation is performed through the entire complex.