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Structure of a dimeric photosystem II complex from a cyanobacterium acclimated to far-red light

Christopher J. Gisriel, Gaozhong Shen, David A. Flesher, Vasily Kurashov, John H. Golbeck, Gary W. Brudvig, Muhamed Amin, Donald A. Bryant

2022Journal of Biological Chemistry42 citationsDOIOpen Access PDF

Abstract

Photosystem II (PSII) is the water-splitting enzyme central to oxygenic photosynthesis. To drive water oxidation, light is harvested by accessory pigments, mostly chlorophyll (Chl) a molecules, which absorb visible light (400-700 nm). Some cyanobacteria facultatively acclimate to shaded environments by altering their photosynthetic machinery to additionally absorb far-red light (FRL, 700-800 nm), a process termed far-red light photoacclimation or FaRLiP. During far-red light photoacclimation, FRL-PSII is assembled with FRL-specific isoforms of the subunits PsbA, PsbB, PsbC, PsbD, and PsbH, and some Chl-binding sites contain Chls d or f instead of the usual Chl a. The structure of an apo-FRL-PSII monomer lacking the FRL-specific PsbH subunit has previously been determined, but visualization of the dimeric complex has remained elusive. Here, we report the cryo-EM structure of a dimeric FRL-PSII complex. The site assignments for Chls d and f are consistent with those assigned in the previous apo-FRL-PSII monomeric structure. All sites that bind Chl d or Chl f at high occupancy exhibit a FRL-specific interaction of the formyl moiety of the Chl d or Chl f with the protein environment, which in some cases involves a phenylalanine sidechain. The structure retains the FRL-specific PsbH2 subunit, which appears to alter the energetic landscape of FRL-PSII, redirecting energy transfer from the phycobiliprotein complex to a Chl f molecule bound by PsbB2 that acts as a bridge for energy transfer to the electron transfer chain. Collectively, these observations extend our previous understanding of the structure-function relationship that allows PSII to function using lower energy FRL.

Topics & Concepts

Photosystem IIPhotosynthesisPhotosystem IPhycobilisomeChemistryPhotochemistryCyanobacteriaElectron transferPhycobiliproteinFar-redPhotosystemMonomerBiophysicsBiologyBotanyBiochemistryRed lightBacteriaGeneticsPolymerOrganic chemistryPhotosynthetic Processes and MechanismsPhotoreceptor and optogenetics researchLight effects on plants
Structure of a dimeric photosystem II complex from a cyanobacterium acclimated to far-red light | Litcius