Inhibition of photosynthetic electron transport and formation of inactive chlorophyll in winter stressed Pinus silvestris [chloroplast, fluorescence, photosynthetic unit, plastoquinone, Asc, ascorbate; Chl, chlorophyll; DCMU, 3-(3-4-dichlorophenyl)-1,1-dimethylurea; DPIP, 2,6-dichlorophenol-indophenol; HEPES, N-2-hydroxyethyl-piperazine-N-2-ethane-sulphonic acid; NADP, nicotinamide adenine dinucleotide phosphate; P, secondary acceptor of PS II; PC, plastocyanin; PS, photosystem; Q, primary acceptor in PS II; SD, standard deviation.]
1980
Oequist, G. | Martin, B. (Umeaa Univ. (Sweden). Dept. of Plant Physiology)
Kinetics of fluorescence at room temperature, electron transport and photooxidation of P700 and cytochrome f have been studied in chloroplasts isolated from active and winter stressed Pinus silvestris. The winter stress induced block in the electron transport chain between the two photosystems in close to the site of plastoquinone, since winter stress and DCMU caused the same type of inhibition of the reoxidation of the primary electron acceptor Q of photosystem II. No winter inhibition of the electron transport between cytochrome f and P700 was observed. Time course studies of P700 photooxidation in chloroplasts of active and winter stressed pine have shown that the photosynthetic unit size must be about equal in the two types of chloroplasts. An apparent increase of the photosynthetic unit size was induced by winter stress, as revealed by the high chlorophyll/P700 ratio of winter stressed pine. The phenomenon is explained by the formation of photosynthetically inactive chlorophyll. Low-temperature fluorescence emission spectra were recorded when either chlorophyll a (433 nm) or, chlorophyll b (477 nm) were preferentially excited. Winter stress induced the formation of a chlorophyll a fraction emitting at 673 nm. This chlorophyll is most likely derived from the chlorophyll a antennae of the two photosystems, and it probably contributes to the photosynthetically inactive pool of chlorophyll in winter stressed pine. The light harvesting chlorophyll a/b complex is relatively resistant to winter stress.
Show more [+] Less [-]Bibliographic information
This bibliographic record has been provided by European Union
