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F1Fo‐ATP synthase is one of the best studied macromolecular machines in nature. It can be inhibited by a range of small molecules, which include the polyphenols, resveratrol and piceatannol. Here, we introduce Photoswitchable Inhibitors of ATP Synthase, termed PIAS, which were synthetically derived from these polyphenols. They can be used to reversibly control the enzymatic activity of purified yeast Yarrowia lipolyticaATP synthase by light. Our experiments indicate that the PIAS bind to the same site in the ATP synthase F1 complex as the polyphenols in their trans form, but they do not bind in their cis form. The PIAS could be useful tools for the optical precision control of ATP synthase in a variety of biochemical and biotechnological applications.
Inhibition of F1Fo ATP synthases by bacterial
virulence factors and photoswitchable azopolyphenols
(2019)
F1Fo ATP synthases are important membrane-embedded nano-machines which are conserved among all three kingdoms of life. They use a proton or sodium gradient across the membrane to drive ATP synthesis, which is the major source of energy for the cell. As ATP synthases are essential for pathogens such as mycobacteria, they are important drug targets for the treatment of infectious diseases. In this work, structural studies on the E. coli ATP synthase are performed. Furthermore, bacterial virulence MgtC proteins are investigated. Additionally, photo-switches are used to spatiotemporally control yeast ATPase activity...