Oxidative stress in cucumber (Cucumis sativus L) seedlings treated with acifluorfen.

Treatment of diphenyl ether herbicide acifluorfen-Na (AF-Na) to intact cucumber (Cucumis sativus L cv Poinsette) seedlings induced overaccumulation of protoporphyrin IX in light (75 mumole m-2 s-1). The extra-plastidic protoporphyrin IX accumulated during the light exposure disappeared within two hours of transfer of acifluorofen-treated seedlings to darkness. The dark disappearance was due to re-entry of migrated protoporphyrin IX into the plastid and its subsequent conversion to protochlorophyllide. In light, protoporphyrin IX acted as a photosensitizer and caused generation of active oxygen species. The latter caused damage to the cellular membranes by peroxidation of membrane lipids that resulted in production of malondialdehyde. Damage to the plastidic membranes resulted in damage to photosystem I and photosystem II reactions. Dark-incubation of herbicide-sprayed plants before their exposure to light enhanced photodynamic damage due to diffusion of the herbicide to the site of action. Compared to control, in treated samples the cation-induced increases in variable fluorescence/maximum fluorescence ratio and increase in photosystem II activity was lower due to reduced grana stacking in herbicide-treated and light-exposed plants.

Expression of 5-amino levulinic acid induced photodynamic damage to the thylakoid membranes in dark sensitized by brief pre-illumination.

The 5-amino levulinic acid treated cucumber (Cucumis sativus L., CV. Pointsette) plants upon exposure to light (~ 30,000 lux) wilted within 6 h and died after 36 h due to photodynamic reactions. Thylakoid membranes, the site of accumulation of porphyrins, were damaged due to photodynamic reactions leading to the inhibition of membrane linked functions of photosystem II, photosystem I and the whole chain electron transport. Photosystem II was more susceptible to photodynamic damage than photosystem I. The exogenous electron donors Mn2+, diphenyl carbazide and NH2OH failed to donate electrons to photosystem II suggesting that the damage has taken place close to P680. The 5-amino levulinic acid treated plants exposed to 30 min of light did not show any damage to the thylakoid membranes. However, when the above plants were transferred to dark for 12 h there was substantial damage to the thylakoid membrane system.