Temperature Dependent Alterations in the Pattern of Photochemical and Non-Photochmical Quenching and Associated Changes in the Photosystem II Conditions of the Leaves : ENVIRONMENTAL AND STRESS RESPONSES
スポンサーリンク
概要
- 論文の詳細を見る
The alterations in the PSII activity of leaves, subsequent to a mild or severe heat stress were characterized by monitoring the Chl α fluorescence and thermoluminescence emission from intact leaves. The Chl α fluorescence measurements were carried out in leaves adapted to either 'state I' or 'state II' since under these two conditions the photosynthetic apparatus is known to have distinctly different structure-function relationships. The pattern of Chl α fluorescence induction in state II-adapted leaves was different from that of state I-adapted leaves due to the alterations in the extent of photochemical (q_Q) and non-photochemical (q_E) quenching during the time course of induction. The pattern of changes in q_Q and q_E Values was also altered by heat treatment depending on the severity of heat stress; severe heat stress (47℃) suppressing these parameters drastically. Mild heat treatment (42℃) did not affect the ability of leaves to undergo state I to state II transition whereas the severe heat stress totally abolished such transition. The fluorescence and thermoluminescence characteristics of the leaves that have been exposed to the severe heat stress suggest that a large number of affected PSII units retain a functional water-oxidizing complex at the donor side.
- 日本植物生理学会の論文
著者
-
Mohanty Prasanna
School Of Life Sciences Jawahartal Nehru University
-
Mohanty Prasanna
School Of Life Sciences Jawaharlal Nehru University
-
Joshi Manoj
School of Life Sciences, Jawahartal Nehru University
-
Desai T.S.
Molecular Biology and Agriculture Division, Bhabha Atomic Research Centre
-
Desai T.s.
Molecular Biology And Agriculture Division Bhabha Atomic Research Centre
-
Joshi Manoj
School Of Life Sciences Jawahartal Nehru University
関連論文
- Mercury Induces Alteration of Energy Transfer in Phycobilisome by Selectively Affecting the Pigment Protein, Phycocyanin, in the Cyanobacterium, Spirulina platensis
- Mercury-Induced Inhibition of Photosystem II Activity and Changes in the Emission of Fluorescence from Phycobilisomes in Intact Cells of the Cyanobacterium, Spirulina platensis
- Effect of Temperature on Photosynthetic Activities of Senesclng Detached Wheat Leaves
- Aging induced changes in photosynthetic electron transport of detached barley leaves
- Inhibition of the Chloroplast Photochemical Reactions by Treatment of Wheat Seedlings with Low Concentrations of Cadmium: Analysis of Electron Transport Activities and Changes in Fluorescence Yield
- Sequential Loss of Photosynthetic Functions during Leaf Desiccation as Monitored by Chlorophyll Fluorescence Transient
- Temperature Dependent Alterations in the Pattern of Photochemical and Non-Photochmical Quenching and Associated Changes in the Photosystem II Conditions of the Leaves : ENVIRONMENTAL AND STRESS RESPONSES