Synthesis of photopigments and electron transport components in synchronous phototrophic cultures of Rhodopseudomonas sphaeroides.

The kinetics of synthesis and incorporation of the photosynthetic pigments and several of the major oxidative and photosynthetic electron transport components of Rhodopseudomonas sphaeroides have been studied during synchronous and asynchronous phototrophic growth. The photosynthetic pigments and cytochromes c and b, measured spectroscopically, exhibited continuous patterns of synthesis and incorporation into the membrane particulate fraction in both synchronous and asynchronous cultures. Succinic dehydrogenase and NADH-oxidase activities, present at low levelnous growth. In a previous paper, Leuking, D.R., Fraley, R.T., and Kaplan, S. ((1978) J. Biol. Chem. 253, 451-457) have shown that total cellular phospholipid is also accumulated discontinuously during synchronous growth. A continuously incorporated membrane component is thus subject to a wide variation in the membrane protein/lipid ratio. The significance of this ratio in regulating the activity of membrane proteins is discussed and the distinction between protein incorporation and function is drawn with particular reference to the photosynthetic pigments and cytochrome components and the oxidative activities measured. It is suggested that a dependence of membrane protein activity on the membrane protein to lipid ratio in vivo is of possible significance in the control of membrane synthesis and cell division.