A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä
Novel insights into plant light-harvesting complex II phosphorylation and 'state transitions'
Tekijät: Tikkanen M, Grieco M, Aro EM
Kustantaja: ELSEVIER SCIENCE LONDON
Julkaisuvuosi: 2011
Journal: Trends in Plant Science
Tietokannassa oleva lehden nimi: TRENDS IN PLANT SCIENCE
Lehden akronyymi: TRENDS PLANT SCI
Numero sarjassa: 3
Vuosikerta: 16
Numero: 3
Aloitussivu: 126
Lopetussivu: 131
Sivujen määrä: 6
ISSN: 1360-1385
DOI: https://doi.org/10.1016/j.tplants.2010.11.006
Tiivistelmä
Plants need a highly responsive regulatory system to keep photosynthetic light reactions in balance with the needs and restrictions of the downstream metabolism. This mechanism optimises plant growth under naturally fluctuating light conditions. In this opinion article, we present a model addressing the biological role of the light intensity-controlled phosphorylation of light-harvesting complex II (LHCII) proteins and its relation with the non-photochemical quenching of excitation energy (NPQ). We overturn a long held view of the possible role of 'state transitions'. Instead, we discuss the interplay between LHCII protein phosphorylation and NPQ, a mechanism that is crucial for regulating excitation energy distribution to the two photosystems (PSII and PSI) and balancing the intersystem electron flow despite constant fluctuations in light intensity.
Plants need a highly responsive regulatory system to keep photosynthetic light reactions in balance with the needs and restrictions of the downstream metabolism. This mechanism optimises plant growth under naturally fluctuating light conditions. In this opinion article, we present a model addressing the biological role of the light intensity-controlled phosphorylation of light-harvesting complex II (LHCII) proteins and its relation with the non-photochemical quenching of excitation energy (NPQ). We overturn a long held view of the possible role of 'state transitions'. Instead, we discuss the interplay between LHCII protein phosphorylation and NPQ, a mechanism that is crucial for regulating excitation energy distribution to the two photosystems (PSII and PSI) and balancing the intersystem electron flow despite constant fluctuations in light intensity.
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