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Berko, Mark BF; Kazi_Aurnob, AKM; Lewis, Richard J; Davies, Thomas E; Qi, Guodong; Xu, Jun; Taylor, Stuart H; Hutchings, Graham J; Spivey, James J; Ding, Kunlun (, Catalysis Today)Free, publicly-accessible full text available January 1, 2027
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Manna, Premashis; Hoffmann, Madeline; Davies, Thomas; Richardson, Katherine H.; Johnson, Matthew P.; Schlau-Cohen, Gabriela S. (, Science Advances)Plants capture and convert solar energy in a complex network of membrane proteins. Under high light, the luminal pH drops and induces a reorganization of the protein network, particularly clustering of the major light-harvesting complex (LHCII). While the structures of the network have been resolved in exquisite detail, the thermodynamics that control the assembly and reorganization had not been determined, largely because the interaction energies of membrane proteins have been inaccessible. Here, we describe a method to quantify these energies and its application to LHCII. Using single-molecule measurements, LHCII proteoliposomes, and statistical thermodynamic modeling, we quantified the LHCII-LHCII interaction energy as ~−5kBTat neutral pH and at least −7kBTat acidic pH. These values revealed an enthalpic thermodynamic driving force behind LHCII clustering. Collectively, this work captures the interactions that drive the organization of membrane protein networks from the perspective of equilibrium statistical thermodynamics, which has a long and rich tradition in biology.more » « less
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Davies, Thomas G.; Rahman, Imran A.; Lautenschlager, Stephan; Cunningham, John A.; Asher, Robert J.; Barrett, Paul M.; Bates, Karl T.; Bengtson, Stefan; Benson, Roger B.; Boyer, Doug M.; et al (, Proceedings of the Royal Society B: Biological Sciences)
