The mechanism of reduction of the ubiquinone pool in photosynthetic bacteria at different redox potentials

Autor:	J.C. Romijn, R. van Grondelle, M.P.J. Pulles, B.G. De Grooth
Rok vydání:	1978
Předmět:	Photosynthetic reaction centre Light Semiquinone Ubiquinone Biophysics Rhodobacter sphaeroides Antimycin A Rhodospirillum rubrum Photochemistry Biochemistry Redox Electron Transport Absorbance chemistry.chemical_compound Species Specificity Photosynthesis biology Bacterial Chromatophores Cell Biology Darkness biology.organism_classification Electron transport chain Kinetics chemistry Spectrophotometry Photosynthetic bacteria Oxidation-Reduction
Zdroj:	Biochimica et Biophysica Acta (BBA) - Bioenergetics. 503:480-490
ISSN:	0005-2728
DOI:	10.1016/0005-2728(78)90147-0
Popis:	(1) A flash number dependency of flash-induced absorbance changes was observed with whole cells of Rhodospirillum rubrum and chromatophores of R. rubrum and Rhodopseudomonas sphaeroides wild type and the G1C mutant. The oscillatory behavior was dependent on the redox potential; it was observed under oxidizing conditions only. Absorbance difference spectra measured after each flash in the 275--500 nm wavelength region showed that a molecule of ubiquinone, R, is reduced to the semiquinone (R-) after odd-numbered flashes and reoxidized after even-numbered flashes. The amount of R reduced was approximately one molecule per reaction center. (2) The flash number dependency of the electrochromic shift of the carotenoid spectrum was studied with chromatophores of Rps. sphaeroides wild type and the G1C mutant. At higher values of the ambient redox potential a relatively slow phase with a rise time of 30 ms was observed after even-numbered flashes, in addition to the fast phase (completed within 0.2 ms) occurring after each flash. Evidence was obtained that the slow phase represents the formation of an additional membrane potential during a dark reaction that occurs after flashes with an even number. This reaction is inhibited by antimycin A, whereas the oscillations of the R/R- absorbance changes remain unaffected. At low potentials (E = 100 mV) no oscillations of the carotenoid shift were observed: a fast phase was followed by a slow phase (antimycin-sensitive) with a half-time of 3 ms after each flash. (3) The results are discussed in terms of a model for the cyclic electron flow as described by Prince and Dutton (Prince, R.C. and Dutton, P.L. (1976) Bacterial Photosynthesis Conference, Brussels, Belgium, September 6--9, Abstr. TB4) employing the so-called Q-cycle.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::59fdcb9af8ddf8b00c15544af7448030 https://doi.org/10.1016/0005-2728(78)90147-0 Zobrazit plný text záznamu