Function and properties of a soluble c-type cytochrome c-551 in secondary photosynthetic electron transport in whole cells of Chromatium vinosum as studied with flash spectroscopy

Changes in the absorption spectrum induced by 10-μs flashes and continuous light of various intensities were studied in whole cells of Chromatium vinosum.This paper describes the role and function of a soluble c-type cytochrome, c-551, which was surprisingly found to act in many ways similar to the cytochrome c-420 in Rhodospirillum rubrum, described in a previous paper [1].After the photooxidation of the membrane bound high potential cytochrome c-555 by a 10-μs flash, (the low potential cytochrome c-552 was kept permanently in the oxidized state) the oxidation of c-551 is observed ($\text{t}{}_{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}\text{= 0.3}\text{ms}$). From a careful analysis of the absorbance difference spectrum and the kinetics it is concluded that there is approximately 0.6–0.7 c-551 per reaction center and that essentially all the c⁺-555 is reduced via the cytochrome c-551. The oxidized-reduced difference spectrum of c-551 shows peaks at 551 and 421.5 nm. The reduction of c⁺-551 following the flash-induced oxidation is strongly inhibited by HOQNO, but only slightly by antimycin A.Cytochrome c-551 reduces only the oxidized high potential cytochrome c-555, which is probably located on the outside of the membrane, on the opposite side of the primary acceptor. The low potential cytochrome c-552 does not show any detectable interaction with cytochrome c-551. After the cells have been sonicated, no c-551 is photooxidized and at least part of the cytochrome occurs in the solution.Analysis of the reduction kinetics of c⁺-551 in the absence and presence of external donors suggests that c⁺-551 is partly reduced via a cyclic pathway, which is blocked by addition of o-phenanthroline, and partly via a non-cyclic pathway. The non-cyclic reduction rate of c⁺-551 (k = 6 s^?1) is increased approximately 5–10 times upon thiosulphate addition, suggesting a role for c-551 between the final donor pool and the oxidized membrane bound c-type cytochromes.