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Observation of dissipative chlorophyll-to-carotenoid energy transfer in light-harvesting complex II in membrane nanodiscs

Minjung Son, Alberta Pinnola, Samuel C. Gordon, Roberto Bassi and Gabriela S. Schlau-Cohen ()
Additional contact information
Minjung Son: Massachusetts Institute of Technology
Alberta Pinnola: University of Pavia
Samuel C. Gordon: Massachusetts Institute of Technology
Roberto Bassi: University of Verona
Gabriela S. Schlau-Cohen: Massachusetts Institute of Technology

Nature Communications, 2020, vol. 11, issue 1, 1-8

Abstract: Abstract Plants prevent photodamage under high light by dissipating excess energy as heat. Conformational changes of the photosynthetic antenna complexes activate dissipation by leveraging the sensitivity of the photophysics to the protein structure. The mechanisms of dissipation remain debated, largely due to two challenges. First, because of the ultrafast timescales and large energy gaps involved, measurements lacked the temporal or spectral requirements. Second, experiments have been performed in detergent, which can induce non-native conformations, or in vivo, where contributions from homologous antenna complexes cannot be disentangled. Here, we overcome both challenges by applying ultrabroadband two-dimensional electronic spectroscopy to the principal antenna complex, LHCII, in a near-native membrane. Our data provide evidence that the membrane enhances two dissipative pathways, one of which is a previously uncharacterized chlorophyll-to-carotenoid energy transfer. Our results highlight the sensitivity of the photophysics to local environment, which may control the balance between light harvesting and dissipation in vivo.

Date: 2020
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DOI: 10.1038/s41467-020-15074-6

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