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Crystal structure of a photosynthetic LH1-RC in complex with its electron donor HiPIP

Tomoaki Kawakami, Long‐Jiang Yu, Tai Liang, Koudai Okazaki, Michael T. Madigan, Yukihiro Kimura, Zheng‐Yu Wang‐Otomo

2021Nature Communications27 citationsDOIOpen Access PDF

Abstract

Photosynthetic electron transfers occur through multiple components ranging from small soluble proteins to large integral membrane protein complexes. Co-crystallization of a bacterial photosynthetic electron transfer complex that employs weak hydrophobic interactions was achieved by using high-molar-ratio mixtures of a soluble donor protein (high-potential iron-sulfur protein, HiPIP) with a membrane-embedded acceptor protein (reaction center, RC) at acidic pH. The structure of the co-complex offers a snapshot of a transient bioenergetic event and revealed a molecular basis for thermodynamically unfavorable interprotein electron tunneling. HiPIP binds to the surface of the tetraheme cytochrome subunit in the light-harvesting (LH1) complex-associated RC in close proximity to the low-potential heme-1 group. The binding interface between the two proteins is primarily formed by uncharged residues and is characterized by hydrophobic features. This co-crystal structure provides a model for the detailed study of long-range trans-protein electron tunneling pathways in biological systems.

Topics & Concepts

Photosynthetic reaction centreChemistryElectron transferElectron donorElectron acceptorElectron transport chainCrystallographyBacteriochlorophyllAcceptorProtein subunitCrystal structurePhotosynthesisBiophysicsPhotochemistryBiochemistryBiologyCatalysisPhysicsGeneCondensed matter physicsPhotosynthetic Processes and MechanismsMetalloenzymes and iron-sulfur proteinsPorphyrin Metabolism and Disorders