期刊
PLANT JOURNAL
卷 113, 期 1, 页码 60-74出版社
WILEY
DOI: 10.1111/tpj.16034
关键词
disassembly of LHCII and PSI core; drought stress; non-photochemical quenching; pigment-protein complexes; photosystem; Pisum sativum; thylakoid organization
This study found that the effects of drought on photosynthesis have been extensively studied, but the effects on thylakoid organization are limited. The research observed a significant decline in gas exchange parameters and a reduction of photochemical efficiency of photosystem II and I in pea leaves under progressive drought stress. Furthermore, the study found changes in the organization of light-harvesting complexes and reductions in supercomplexes of thylakoids in drought-affected plants.
The effects of drought on photosynthesis have been extensively studied, whereas those on thylakoid organization are limited. We observed a significant decline in gas exchange parameters of pea (Pisum sativum) leaves under progressive drought stress. Chl a fluorescence kinetics revealed the reduction of photochemical efficiency of photosystem (PS)II and PSI. The non-photochemical quenching (NPQ) and the levels of PSII subunit PSBS increased. Furthermore, the light-harvesting complexes (LHCs) and some of the PSI and PSII core proteins were disassembled in drought conditions, whereas these complexes were reassociated during recovery. By contrast, the abundance of supercomplexes of PSII-LHCII and PSII dimer were reduced, whereas LHCII monomers increased following the change in the macro-organization of thylakoids. The stacks of thylakoids were loosely arranged in drought-affected plants, which could be attributed to changes in the supercomplexes of thylakoids. Severe drought stress caused a reduction of both LHCI and LHCII and a few reaction center proteins of PSI and PSII, indicating significant disorganization of the photosynthetic machinery. After 7 days of rewatering, plants recovered well, with restored chloroplast thylakoid structure and photosynthetic efficiency. The correlation of structural changes with leaf reactive oxygen species levels indicated that these changes were associated with the production of reactive oxygen species.
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