REGULATION OF LIGHT HARVESTING IN GREEN PLANTS
- 1 June 1996
- journal article
- Published by Annual Reviews in Annual Review of Plant Biology
- Vol. 47 (1) , 655-684
- https://doi.org/10.1146/annurev.arplant.47.1.655
Abstract
▪ Abstract When plants are exposed to light intensities in excess of those that can be utilized in photosynthetic electron transport, nonphotochemical dissipation of excitation energy is induced as a mechanism for photoprotection of photosystem II. The features of this process are reviewed, particularly with respect to the molecular mechanisms involved. It is shown how the dynamic properties of the proteins and pigments of the chlorophyll a/b light-harvesting complexes of photosystem II first enable the level of excitation energy to be sensed via the thylakoid proton gradient and subsequently allow excess energy to be dissipated as heat by formation of a nonphotochemical quencher. The nature of this quencher is discussed, together with a consideration of how the variation in capacity for energy dissipation depends on specific features of the composition of the light-harvesting system. Finally, the prospects for future progress in understanding the regulation of light harvesting are assessed.This publication has 119 references indexed in Scilit:
- Molecular Basis of the Vulnerability of Photosystem II to Damage by LightFunctional Plant Biology, 1995
- A molecular mechanism for qE‐quenchingFEBS Letters, 1994
- Epoxidation of zeaxanthin and antheraxanthin reverses non‐photochemical quenching of photosystem II chlorophyll a fluorescence in the presence of trans‐thylakoid ΔpHFEBS Letters, 1994
- The intrinsic 22 kDa protein is a chlorophyll‐binding subunit of photosystem IIFEBS Letters, 1994
- Xanthophyll cycle and energy-dependent fluorescence quenching in leaves from pea plants grown under intermittent lightPlanta, 1994
- Excitation-energy quenching in aggregates of the LHC II chlorophyll-protein complex: a time-resolved fluorescence studyBiochimica et Biophysica Acta (BBA) - Bioenergetics, 1993
- The molecular mechanism of the control of excitation energy dissipation in chloroplast membranes Inhibition of ΔpH‐dependent quenching of chlorophyll fluorescence by dicyclohexylcarbodiimideFEBS Letters, 1992
- Control of the light‐harvesting function of chloroplast membranes by aggregation of the LHCII chlorophyll—protein complexFEBS Letters, 1991
- The relationship between zeaxanthin, energy-dependent quenching of chlorophyll fluorescence, and trans-thylakoid pH gradient in isolated chloroplastsBiochimica et Biophysica Acta (BBA) - Bioenergetics, 1991
- Enhancement of the ΔpH‐dependent dissipation of excitation energy in spinach chloroplasts by light‐activation: correlation with the synthesis of zeaxanthinFEBS Letters, 1989