| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2016385 | Plant Physiology and Biochemistry | 2011 | 9 Pages |
Abstract
⺠Arabidopsis WT and its mutants, crr2-2 and pgr5, were subjected short-term exposure to heat stress in darkness. ⺠Our experimental results reveal for the first time that the impact of heat stress is significantly different in pgr5 mutant in comparison with crr2-2 mutant or WT plants. ⺠PSII centers of pgr5 mutants are shown less susceptible to high temperature stress if compared to crr2-2 mutant or WT plants as evidenced from the analyses of several Chl fluorescence parameters. ⺠Further, the redox kinetics of P700 obtained with far-red illumination in the mutants and WT Arabidopsis revealed a temperature dependent suppression of CEF by the thermal stress.
Keywords
FNRferredoxin-NADP oxidoreductaseFQRTyrZP700P680cytochrome b6/fCyt b6/fNPQNDHCEFPEFETRChlOECe−QA and QBROSt1/2fluorescence inductionelectronLinear electron flowCyclic electron flowNonphotochemical quenchingNon-photochemical quenchingEnergy-dependent quenchingChlorophyllPhotosystemPhotosystemsFerredoxinChlorophyll fluorescenceLefMethylviologeniron–sulfur centersElectron transport rateactinic lightFar-red lightHalf-timePlastocyaninplastoquinoneOxygen-evolving complexHeat-stressReactive oxygen species
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Authors
Jemâa Essemine, Sridharan Govindachary, Saïda Ammar, Sadok Bouzid, Robert Carpentier,