Phosphorylation in isolated chloroplasts coupled to dichlorophenyldimethylurea-insensitive silicomolybdate reduction

Abstract

1. The electron transport in isolated chloroplasts with silicomolybdate as electron acceptor has been reinvestigated. The silicomolybdate reduction has been directly measured as deltaA750 or indirectly as O2 evolution (in the presence or absence of ferricyanide). 2. Silicomolybdate-dependent O2 evolution is inhibited to a similar extent by 3-(3,4-dichlorophenyl) 1, 1-dimethylurea (DCMU) or dibromothymoquinone (DBMIB), indicating the existence of two different sites of silicomolybdate reduction: one before the DCMU block (i.e. at Photosystem II) and one after the DBMIB block (i.e. at Photosystem I). 3. Silicomolybdate-dependent O2 evolution is coupled to ATP synthesis with an ATP/2e- ratio of 1.0 to 1.1. The presence of ferricyanide inhibits this ATP synthesis (ATP/2e- ratio then is about 0.3). 4. Silicomolybdate-dependent O2 evolution is also coupled to ATP-synthesis in the presence of DCMU with an ATP/2e- ratio of 0.6-0.8 characteristic of Site II; in this case the electron transport itself is not affected by uncouplers or energy-transfer inhibitors. 5. The data are interpreted as a further demonstration that the water-splitting reaction is responsible for the conservation of energy at Photosystem II.