Isolation and Characterization of the Cytochrome bf Complex from Whole Thylakoids, Grana, and Stroma Lamellae Vesicles from Spinach Chloroplasts

The cytochrome bf complex was isolated from spinach thylakoids,and also from separated grana and stroma lamellae vesicles,by a procedure involving NaBr washing, detergent treatment andcentrifugation in sucrose gradients. The resulting complex fromall three types of membranes, were almost completely devoidof chlorophyll and carotenoids. The complexes have kinase activitytowards histone III-S and contain a 64 kDa protein claimed tobe a kinase. Electrophoretic analyses indicate that the complexesare in dimeric form and composed of six polypeptides with molecularmasses of 34/33, 23, 20, 17, 12 and 4 kDa. The complexes containtwo moles cytochrome b₆ per mole cytochrome f and one mole RieskeFeS. The 17 kDa and 4 kDa polypeptides are the so called subunit4 and 5 respectively. The 12 kDa protein was identified as plastocyaninby immunoblotting. Plastocyanin and the 4 kDa protein were presentin the cytochrome bf complex even after a second repeated sucrosedensity gradient centrifugation. The sucrose gradient sedimentation pattern was different forthe grana and stroma lamellae complexes. The complex from thestroma lamellae arrives at a higher density than the grana complex.Furthermore, the gradient centrifugation diagram of the stromalamellae consists of one main peak while the diagram of thegrana complex shows two peaks. There is significantly more plastocyaninand 4 kDa protein in the bf complex isolated from stroma lamellaethan from grana. In addition there is a 15 kDa protein in thecomplex isolated from the grana vesicles. Immunoblot analysisafter crosslinking indicated that the 4 kDa protein and theplastocyanin are associated in the cytochrome bf complex. Theoxidoreductase activity is higher (about 50%) in the cytochromebf complex from the grana than from the stroma lamellae fraction.We suggest that a difference in composition of the cytochromebf complex between the two membranes might be important in theregulation of cyclic and non cyclic electron flow. ¹Present address: Department of Plant Physiology II, Universityof Warsaw, 00 927 Warsaw, Poland