The electron transport system of the halophilic purple nonsulfur bacterium Rhodospirillum salinarum. 1. A functional and thermodynamic analysis of the respiratory chain in aerobically and photosynthetically grown cells.

Abstract

Plasma membranes isolated from cells of the halophilic purple nonsulfur bacterium Rhodospirillum salinarum grown in light or in the dark were examined. Membranes isolated from cells grown aerobically in the dark contained three b-type and two c-type membrane-bound cytochromes with Em,7 of +180, +72 and -5 mV (561-575 nm), and +244 and +27 mV (551-540 nm), respectively. Conversely, membranes isolated from cells grown anaerobically in the light contained two b-type and five c-type haems with Em,7 of +60 and -45 mV and +290, +250, +135, -20 and -105 mV, respectively. In addition to haems of the b- and c-type, two haems of the a-type (Em,7 of +325 and +175 mV) were present only in cells grown in the dark. Four soluble cytochromes of the c type, but not cytochrome c2, along with two high-potential iron-sulfur proteins (HiPIP iso-1 and iso-2) were also identified in cells grown aerobically. Inhibitory studies showed that 85-90% of the respiratory activity was blocked by very low concentrations of cyanide, antimycin A and myxothiazol (50, 0.1 and 0.2 mM, respectively). These results taken together were interpreted to show that the oxidative electron transport chain of Rsp. salinarum is linear, leading to a membrane-bound oxidase of the aa3 type in cells grown in the dark, while no significant cytochrome oxidase activity is catalyzed by photosynthetic membranes. These features suggest that this halophilic species is unique among the genus Rhodospirillum and that it also differs from other facultative phototrophs (e.g., Rhodobacter species) in that it does not contain either cytochrome c2 or a branched respiratory chain.