Abstract

In land plants, both efficient light capture and photoprotective dissipation of chlorophyll excited states in excess require proper assembly of Photosystem II supercomplexes PSII-LHCs. These include a dimeric core moiety and a peripheral antenna system made of trimeric LHCII proteins connected to the core through monomeric LHC subunits. Regulation of light harvesting involves re-organization of the PSII supercomplex, including dissociation of its LHCII-CP24-CP29 domain under excess light. The Chl a603-a609-a616 chromophore cluster within CP29 was recently identified as responsible for the fast component of Non-Photochemical Quenching of chlorophyll fluorescence. Here, we pinpointed a chlorophyll-protein domain of CP29 involved in the macro-organization of PSII-LHCs. By complementing an Arabidopsis knock-out mutant with CP29 sequences deleted in the residue binding chlorophyll b614/b3-binding, we found that the site is promiscuous for chlorophyll a and b. By plotting NPQ amplitude vs. CP29 content we observed that quenching activity was significantly reduced in mutants compared to the wild type. Analysis of pigment-binding supercomplexes showed that the missing Chl did hamper the assembly of PSII-LHCs supercomplexes, while observation by electron microscopy of grana membranes highlighted the PSII particles were organized in two-dimensional arrays in mutant grana partitions. As an effect of such array formation electron transport rate between QA and QB reduced, likely due to restricted plastoquinone diffusion. We conclude that chlorophyll b614, rather being part of pigment cluster responsible for quenching, is needed to maintain full rate of electron flow in the thylakoids by controlling protein-protein interactions between PSII units in grana partitions.

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