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Design principles for energy transfer in the photosystem II supercomplex from kinetic transition networks

Shiun-Jr Yang, David J. Wales (), Esmae J. Woods and Graham R. Fleming ()
Additional contact information
Shiun-Jr Yang: University of California, Berkeley
David J. Wales: University of Cambridge, Lensfield Road
Esmae J. Woods: University of Cambridge, Lensfield Road
Graham R. Fleming: University of California, Berkeley

Nature Communications, 2024, vol. 15, issue 1, 1-12

Abstract: Abstract Photosystem II (PSII) has the unique ability to perform water-splitting. With light-harvesting complexes, it forms the PSII supercomplex (PSII-SC) which is a functional unit that can perform efficient energy conversion, as well as photoprotection, allowing photosynthetic organisms to adapt to the naturally fluctuating sunlight intensity. Achieving these functions requires a collaborative energy transfer network between all subunits of the PSII-SC. In this work, we perform kinetic analyses and characterise the energy landscape of the PSII-SC with a structure-based energy transfer model. With first passage time analyses and kinetic Monte Carlo simulations, we are able to map out the overall energy transfer network. We also investigate how energy transfer pathways are affected when individual protein complexes are removed from the network, revealing the functional roles of the subunits of the PSII-SC. In addition, we provide a quantitative description of the flat energy landscape of the PSII-SC. We show that it is a unique landscape that produces multiple kinetically relevant pathways, corresponding to a high pathway entropy. These design principles are crucial for balancing efficient energy conversion and photoprotection.

Date: 2024
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DOI: 10.1038/s41467-024-53138-z

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