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The effect of p-phenylenediamine and dibromothymoquinone on the photosynthetic electron transport and proton pump activities of isolated barley chloroplasts

1978; Elsevier BV; Volume: 186; Issue: 1 Linguagem: Inglês

10.1016/0003-9861(78)90462-9

1096-0384

Niels Chr. Nielsen, Robert M. Smillie,

Light effects on plants

The effect of p-phenylenediamine and dibromothymoquinone (DBMIB) on photosynthetic electron transport was studied using thylakoids from barley chloroplasts. p-Phenylenediamine (0.1 mm) converted the light saturation curve for electron transport between water and ferricyanide from a hyperbolic one saturating at low light intensity into a linear one which was not saturated at any light intensity studied. DBMIB at a concentration of 1 μm had little inhibitory effect on the basal electron transport activity of coupled thylakoids in either the presence or the absence of 0.1 mmp-phenylenediamine. However, activity was inhibited by DBMIB after uncoupling with 60 mm methylamine. These results may indicate that there is a rate-limiting step in electron transport at or after plastoquinone which is circumvented by phenylenediamine. Its appearance or elaboration could explain the conversion of a linear light saturation curve to a hyperbolic one during chloroplast development. The movement of protons into thylakoids upon illumination was reduced about 50% by 1 μm DBMIB, a concentration which maximally inhibits ferricyanide-Hill activity after uncoupling. Fifty percent inhibition occurred irrespective of whether or not phenylenediamine was included in the reaction mixture. Most of the residual DBMIB-insensitive pH change was inhibited by 3 μm 3-(3′,4′-dichlorophenyl)-1,1-dimethylurea (DCMU), suggesting that photosystem II was required for the latter activity. In the presence of both DBMIB and DCMU, proton pump activity could be reestablished by including isoascorbate and p-phenylenediamine in the reaction mixture.