Influence of cyclic AMP on the growth response and anaerobic metabolism of carbon monoxide in Rhodocyclus gelatinosus

Rhodocyclus gelatinosus strain 1 (str. 1), a photoheterotrophic bacterium, used CO as an energy substrate under anaerobic CO/light conditions, and exhibited a diauxic growth response when CO was removed from the culture. Changes in the level of cyclic AMP which occurred in cells during diauxie suggested that the cyclic nucleotide operated as an intracellular control molecule. During CO/light-phase growth, intracellular cyclic AMP was 30 pmol/mg protein, and, as str. 1 adapted for photosynthetic growth after removal of CO, intracellular cyclic AMP levels decreased to 9 pmol/mg protein. Reexposure of a light culture to CO induced synthesis of CO oxidation activity (measured as CO:MV oxidoreductase). If 10 mM cyclic AMP was added with CO, the rate of synthesis of CO:MV oxidoreductase activity increased 25-fold, and str. 1 produced 1,230 units of activity (nmol CO oxidized min^-1 mg^-1 protein) after only 1 h. With cyclic AMP and no CO, no incerease in CO oxidation activity was seen. Appearance of CO oxidation activity in str. 1 represented de novo protein synthesis and was blocked with chloramphenicol. In addition to stimulating formation of CO oxidative activity, a high level of cyclic AMP in str. 1 during growth with CO appeared to influence photometabolism negatively by repressing bacteriochlorophyll formation.Abbreviations Bchl a bacteriochlorophyll a - MV methyl viologen - CO MV oxidoreductase, carbon monoxide: methyl viologen oxidoreductase