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Characterizing ATP processing by the AAA+ protein p97 at the atomic level.

Mikhail SheinManuel HitzenbergerTat Cheung ChengSmruti R RoutKira D LeitlYusuke SatoMartin ZachariasEri SakataAnne Kathrin Schütz
Published in: Nature chemistry (2024)
The human enzyme p97 regulates various cellular pathways by unfolding hundreds of protein substrates in an ATP-dependent manner, making it an essential component of protein homeostasis and an impactful pharmacological target. The hexameric complex undergoes substantial conformational changes throughout its catalytic cycle. Here we elucidate the molecular motions that occur at the active site in the temporal window immediately before and after ATP hydrolysis by merging cryo-EM, NMR spectroscopy and molecular dynamics simulations. p97 populates a metastable reaction intermediate, the ADP·P i state, which is poised between hydrolysis and product release. Detailed snapshots reveal that the active site is finely tuned to trap and eventually discharge the cleaved phosphate. Signalling pathways originating at the active site coordinate the action of the hexamer subunits and couple hydrolysis with allosteric conformational changes. Our multidisciplinary approach enables a glimpse into the sophisticated spatial and temporal orchestration of ATP handling by a prototype AAA+ protein.
Keyphrases
  • molecular dynamics simulations
  • amino acid
  • molecular dynamics
  • binding protein
  • small molecule
  • molecular docking