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Molecular basis of plastoquinone reduction in plant cytochrome b6f

Sebastian Pintscher, Rafał Pietras, Bohun Mielecki, Mateusz Szwalec, Anna Wójcik‐Augustyn, Paulina Indyka, Michał Rawski, L Koziej, Marcin Jaciuk, Grzegorz Ważny, Sebastian Glatt, Artur Osyczka

2024Nature Plants11 citationsDOIOpen Access PDF

Abstract

A multi-subunit enzyme, cytochrome b6f (cytb6f), provides the crucial link between photosystems I and II in the photosynthetic membranes of higher plants, transferring electrons between plastoquinone (PQ) and plastocyanin. The atomic structure of cytb6f is known, but its detailed catalytic mechanism remains elusive. Here we present cryogenic electron microscopy structures of spinach cytb6f at 1.9 Å and 2.2 Å resolution, revealing an unexpected orientation of the substrate PQ in the haem ligand niche that forms the PQ reduction site (Qn). PQ, unlike Qn inhibitors, is not in direct contact with the haem. Instead, a water molecule is coordinated by one of the carbonyl groups of PQ and can act as the immediate proton donor for PQ. In addition, we identify water channels that connect Qn with the aqueous exterior of the enzyme, suggesting that the binding of PQ in Qn displaces water through these channels. The structures confirm large movements of the head domain of the iron–sulfur protein (ISP-HD) towards and away from the plastoquinol oxidation site (Qp) and define the unique position of ISP-HD when a Qp inhibitor (2,5-dibromo-3-methyl-6-isopropylbenzoquinone) is bound. This work identifies key conformational states of cytb6f, highlights fundamental differences between substrates and inhibitors and proposes a quinone–water exchange mechanism. Cryo-EM structures of cytb6f with quinone bound in the Qn site allow the identification of specific proton channels and reveal differences to known inhibitors. Nearby water channels imply a ‘piston-like’ mechanism during catalytic turnover.

Topics & Concepts

PlastoquinoneCytochrome b6f complexReduction (mathematics)CytochromeChemistryBotanyBiologyPhotosynthesisPhotosystem IIChloroplastBiochemistryThylakoidPhotosystem IGeneEnzymeMathematicsGeometryPhotosynthetic Processes and MechanismsPlant Micronutrient Interactions and EffectsEnzyme Structure and Function