Photoinactivation of the reactivation capacity of photosystem II in pea subchloroplast particles after a complete removal of manganese

V. V. Klimov, M. A. Shafiev, S. I. Allakhverdiev

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    59 Citations (Scopus)

    Abstract

    After a complete removal of Mn from pea subchloroplast photosystem-II (PS II) preparations the electron phototransfer and oxygen evolution are restored upon addition of Mn2+ and Ca2+. Pre-illumination of the sample in the absence of Mn2+ leads to photoinhibition (PI) - irreversible loss of the capability of PS II to be reactivated by Mn2+. The effect of PI is considerably decreased in the presence of Mn2+ (∼4 Mn atoms per reaction center of PS II) and it is increased in the presence of ferricyanide or p-benzoquinone revealing the oxidative nature of the photoeffect. PI results in suppression of oxygen evolution, variable fluorescence, photoreduction of 2,6-dichlorophenol indophenol from either water or diphenylcarbazide. However, photooxidation of chlorophyll P680, the primary electron donor of PS II as well as dark and photoinduced EPR signal II (ascribed to secondary electron donors D1 and Z) are preserved. PI is accompanied by photooxidation of 2-3 carotenoid molecules per PS II reaction center (RC) that is accelerated in the presence of ferricyanide and is inhibited upon addition of Mn2+ or diuron. The conclusion is made that PI in the absence of Mn leads to irreversible oxidative inactivation of electron transfer from water to RC of PS II which remains photochemically active. A loss of functional interaction of RC with the electron transport chain as a common feature for different types of PS II photoinhibition is discussed.

    Original languageEnglish
    Pages (from-to)59-65
    Number of pages7
    JournalPhotosynthesis research
    Volume23
    Issue number1
    DOIs
    Publication statusPublished - Jan 1 1990

    Keywords

    • Photoinactivation
    • manganese
    • photosystem II
    • reaction center

    ASJC Scopus subject areas

    • Biochemistry
    • Plant Science
    • Cell Biology

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