Mt Giardi scite author profile

Abstract. Long-term drought stress on photosystem II (PSII) was studied in pea (Pisum sativum L.) seedlings. Drought stress (reduction of water content by 35-80%) led to a considerable depletion of the PSII core, and the remaining PSII complex appeared to be functional and reorganized, with a unit size (LHCP/PSII core) twofold greater than that of well-irrigated plants. By immunoblotting analysis of the PSII proteins from grana and stroma lamellae, the enhanced degradation of CP43 and D1 proteins was observed in water-stressed plants. Also, water stress caused increased phosphorylation of the PSII core and increased D1 protein synthesis. Water-stress-mediated increase in D1 synthesis did not occur when plants were exposed to photoinhibitory light. The depletion of the PSII core was essentially reversed when water-stressed plants grown at low visible irradiance were watered. We suggest that the syndrome caused by the effect of long-term water stress on photosynthesis is a combination of at least two events: a reduction in the number of active PSII centres caused by a physical destabilization of the PSII core and a PSII reorganization with enhanced D1 turnover to counteract the core depletion. Key words: D1 protein (turnover, modification) - DroughtHigh irradiance -Photosystem II (core phosphorylation) -Pisum sativum (drought stress) -Stress syndrome

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Long-Term Drought Stress Symptom: Structural and Functional Reorganization of Photosystem II

Cona¹,

Kučera²,

Masojídek³

et al. 1995

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3H-Leucine Incorporation in Short and Long-Term Herbicide Treatments in Variously Tolerant Higher Plants

Pace¹,

Esposito²,

Rizzuto³

et al. 1998

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Phosphorylation of PSII Core in Relation to D1 Turnover in Higher Plants

Geiken¹,

Cona²,

Giardi³

et al. 1995

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D-1 Protein Turnover and Sensitivity of Higher Plants to Photosystem II-directed Herbicides

Giardi

Geiken

Cona

1997

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Mt Giardi

Long-term drought stress induces structural and functional reorganization of photosystem II

Long-Term Drought Stress Symptom: Structural and Functional Reorganization of Photosystem II

3H-Leucine Incorporation in Short and Long-Term Herbicide Treatments in Variously Tolerant Higher Plants

Phosphorylation of PSII Core in Relation to D1 Turnover in Higher Plants

D-1 Protein Turnover and Sensitivity of Higher Plants to Photosystem II-directed Herbicides

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