Effects of anaerobiosis as probed by the polyphasic chlorophyll a fluorescence rise kinetic in pea (Pisum sativum L.)

[1] Arnon DI(1949)Copper enzymes in isolated chloroplasts. Polyphenoloxidase in Plant Physiol 24 1-15

[2] Asada K(1993)Electron flow to the intersystem chain from stromal components and cyclic electron flow in maize chloroplasts, as detected in intact leaves by monitoring redox change of P700 and chlorophyll fluorescence Plant Cell Physiol 34 39-50

[3] Heber U(1982)Evidence for a respiratory chain in the chloroplast Proc Natl Acad Sci USA 79 4352-4356

[4] Schreiber U(1998)Identification of a functional respiratory complex in chloroplasts through analysis of tobacco mutants containing disrupted plastid EMBO J 17 868-76

[5] Bennoun P(1998) genes Biochim Biophys Acta 1363 59-69

[6] Burrows PA(1994)Reduction of the plastoquinone pool by exogenous NADH and NADPH in higher plant chloroplasts. Characterization of a NAD(P)H–plastoquinone oxidoreductase activity Photochem Photobiol 60 1-23

[7] Sazanov LA(1977)Molecular mechanism and quantitative models of variable Photosystem II fluorescence Biochim Biophys Acta 466 247-258

[8] Svab Z(1997)Dependence of the deactivation reactions of Photosystem II on the redox state of plastoquinone pool A varied under anaerobic conditions. Equilibrium on the acceptor side of Photosystem II Pant Cell Physiol 38 1272-1277

[9] Maliga P(1998)Donation of electrons to plastoquinone by NAD(P)H dehydrogenase and ferredoxinquinone reductase in spinach chloroplasts Plant Physiol 116 1209-1218

[10] Nixon PJ(1991)Nonphotochemical reduction of the plastoquinone pool in sunflower leaves originates from chlororespiration Ann Rev Plant Physiol Plant Mol Biol 42 129-144

[1] Arnon DI(1949)Copper enzymes in isolated chloroplasts. Polyphenoloxidase in Plant Physiol 24 1-15

[2] Asada K(1993)Electron flow to the intersystem chain from stromal components and cyclic electron flow in maize chloroplasts, as detected in intact leaves by monitoring redox change of P700 and chlorophyll fluorescence Plant Cell Physiol 34 39-50

[3] Heber U(1982)Evidence for a respiratory chain in the chloroplast Proc Natl Acad Sci USA 79 4352-4356

[4] Schreiber U(1998)Identification of a functional respiratory complex in chloroplasts through analysis of tobacco mutants containing disrupted plastid EMBO J 17 868-76

[5] Bennoun P(1998) genes Biochim Biophys Acta 1363 59-69

[6] Burrows PA(1994)Reduction of the plastoquinone pool by exogenous NADH and NADPH in higher plant chloroplasts. Characterization of a NAD(P)H–plastoquinone oxidoreductase activity Photochem Photobiol 60 1-23

[7] Sazanov LA(1977)Molecular mechanism and quantitative models of variable Photosystem II fluorescence Biochim Biophys Acta 466 247-258

[8] Svab Z(1997)Dependence of the deactivation reactions of Photosystem II on the redox state of plastoquinone pool A varied under anaerobic conditions. Equilibrium on the acceptor side of Photosystem II Pant Cell Physiol 38 1272-1277

[9] Maliga P(1998)Donation of electrons to plastoquinone by NAD(P)H dehydrogenase and ferredoxinquinone reductase in spinach chloroplasts Plant Physiol 116 1209-1218

[10] Nixon PJ(1991)Nonphotochemical reduction of the plastoquinone pool in sunflower leaves originates from chlororespiration Ann Rev Plant Physiol Plant Mol Biol 42 129-144