Roberto Caferri scite author profile

CP29, a chlorophyll (Chl) a/ b-xanthophyll binding protein, bridges energy transfer between the major LHCII antenna complexes and Photosystem II reaction centres. It hosts one of the two identified quenching sites making it crucial for regulated photoprotection mechanisms. CP29 photophysics has been so far studied on the purified protein in detergent solutions, since spectrally overlapping signals affect in vivo measurements. However, the protein in detergent assumes non-native conformations compared to its physiological state in the thylakoid membrane. Here, we report a detailed photophysical study on CP29 inserted in discoidal lipid bilayers, known as nanodiscs, which mimic the native membrane environment. Using picosecond time-resolved fluorescence and femtosecond transient absorption (TA), we observed shortening of the Chl fluorescence lifetime with a decrease of the carotenoid triplet formation yield for CP29 in nanodiscs as compared to the protein in detergent. Global analysis of TA data suggests a 1Chl* quenching mechanism dependent on excitation energy transfer to a carotenoid dark state, likely the proposed S*, which is believed to be formed due to a carotenoid conformational change affecting the S1 state. We suggest that the accessibility of the S* state in different local environments plays a key role in determining the quenching of Chl excited states. In vivo, non-photochemical quenching is activated by de-epoxidation of violaxanthin into zeaxanthin. CP29-Zeaxanthin in nanodiscs further shortens Chl lifetime, which underlines the critical role of zeaxanthin in modulating photoprotection activity.

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Assessing photoprotective functions of carotenoids in photosynthetic systems of plants and green algae

Caferri

Guardini

Bassi

et al. 2022

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Thylakoid grana stacking revealed by multiplex genome editing of LHCII encoding genes

Guardini

Gómez

Caferri

et al. 2022

Preprint

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Land plant chloroplasts differ from algal ones for their thylakoid membranes being organized in grana: piles of vesicles paired by their stromal surface, forming domains including Photosystem (PS) II and its antenna while excluding PS I and ATPase to stroma membranes, connecting grana stacks. The molecular basis of grana stacking remain unclear. We obtained genotypes lacking the trimeric antenna complex (Lhcb1-2-3), the monomeric Lhcb4-5-6, or both. Full deletion caused loss of grana, while either monomers or trimers support 50% stacking. The expression of Lhcb5 alone restored stacking at 50%, while Lhcb2 alone produced huge grana which broke down upon light exposure. Cyclic electron transport was maintained in the lack of stacking, while excitation energy balance between photosystems and the repair efficiency of damaged Photosystem II were affected. We conclude that grana evolved for need of regulating energy balance between photosystems under terrestrial canopy involving rapid changes in photon spectral distribution.

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Loss of a single chlorophyll in CP29 triggers re-organization of the Photosystem II supramolecular assembly

Guardini¹,

Gómez²,

Caferri³

et al. 2022

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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Roberto Caferri

Identification of a pigment cluster catalysing fast photoprotective quenching response in CP29

Molecular mechanisms of light harvesting in the minor antenna CP29 in near-native membrane lipidic environment

Assessing photoprotective functions of carotenoids in photosynthetic systems of plants and green algae

Thylakoid grana stacking revealed by multiplex genome editing of LHCII encoding genes

Loss of a single chlorophyll in CP29 triggers re-organization of the Photosystem II supramolecular assembly

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