Metabolism of carbon monoxide by Rhodopseudomonas gelatinosa: cell growth and properties of the oxidation system

R L Uffen
1983 Journal of Bacteriology  
Rhodopseudomonas gelatinosa 1 grew as an anaerobic facultative methylotroph with carbon monoxide as the sole carbon and energy source. Carbon from CO was assimilated into cell material via the ribulose 1,5-bisphosphate carboxylase cycle. The CO oxidation system in R. gelatinosa was induced during growth with the gas substrate. Light-grown cells did not oxidize CO. Surprisingly, when strain 1 cells grown in the dark with CO were transferred to growth with both CO and light, they continued to use
more » ... CO and then photometabolized after the CO gas flow was stopped. This change in the energy-yielding substrate resulted in a diauxic growth response. The use of CO in preference to light energy forms the basis of a system in the cells that controls photosynthetic differentiation. CO oxidation was assayed as CO-methyl viologen oxidoreductase. Methyl viologen reduction only occurred with CO; the dye was not reduced with other C1 compounds. In vitro methyl viologen was reduced best at 24°C and at pH values above 8.5. Whole cells exhibited a Km of 12.5 ,uM for CO and a Vmin of 3,800 nmol of CO oxidized per mg of protein per min. This was a low-potential oxidation reaction that readily reduced the viologen dye triquat (1,1'-trimethylene-2,2'dipyridilium dibromide) (E°' = -548 mV). on May 4, 2020 by guest
doi:10.1128/jb.155.3.956-965.1983 fatcat:ubur643jircupnpaqjk65wxqii