PGR5 is involved in cyclic electron flow around photosystem I and is essential for photoprotection in Arabidopsis

PGR5 is involved in cyclic electron flow around photosystem I and is essential for photoprotection in Arabidopsis. Munekage, Y, Hojo, M, Meurer, J, Endo, T, Tasaka, M, & Shikanai, T Cell, 110(3):361–371, 2002.
doi abstract bibtex

During photosynthesis, plants must control the utilization of light energy in order to avoid photoinhibition. We isolated an Arabidopsis mutant, pgr5 (proton gradient regulation), in which downregulation of photosystem 11 photochemistry in response to intense light was impaired. PGR5 encodes a novel thylakoid membrane protein that is involved in the transfer of electrons from ferredoxin to plastoquinone. This alternative electron transfer pathway, whose molecular identity has long been unclear, is known to function in vivo in cyclic electron flow around photosystern 1. We propose that the PGR5 pathway contributes to the generation of a DeltapH that induces thermal dissipation when Calvin cycle activity is reduced. Under these conditions, the PGR5 pathway also functions to limit the overreduction of the acceptor side of photosystem 1, thus preventing photosystern I photoinhibition.

@article{munekage_pgr5_2002,
	title = {{PGR5} is involved in cyclic electron flow around photosystem {I} and is essential for photoprotection in {Arabidopsis}},
	volume = {110},
	doi = {Doi 10.1016/S0092-8674(02)00867-X},
	abstract = {During photosynthesis, plants must control the utilization of light energy in order to avoid photoinhibition. We isolated an Arabidopsis mutant, pgr5 (proton gradient regulation), in which downregulation of photosystem 11 photochemistry in response to intense light was impaired. PGR5 encodes a novel thylakoid membrane protein that is involved in the transfer of electrons from ferredoxin to plastoquinone. This alternative electron transfer pathway, whose molecular identity has long been unclear, is known to function in vivo in cyclic electron flow around photosystern 1. We propose that the PGR5 pathway contributes to the generation of a DeltapH that induces thermal dissipation when Calvin cycle activity is reduced. Under these conditions, the PGR5 pathway also functions to limit the overreduction of the acceptor side of photosystem 1, thus preventing photosystern I photoinhibition.},
	language = {English},
	number = {3},
	journal = {Cell},
	author = {Munekage, Y and Hojo, M and Meurer, J and Endo, T and Tasaka, M and Shikanai, T},
	year = {2002},
	keywords = {chlorophyll-fluorescence, chloroplasts, energy-storage, leaves, nad(p)h dehydrogenase, nadh-dehydrogenase, ndhb gene, photoacoustic measurements, tobacco, transport},
	pages = {361--371},
}

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