Properties and regulation of synthesis of two ferredoxins from Rhodopseudomonas capsulata

Two ferredoxins from nitrogen-fixing cells of the phototrophic bacterium Rhodopseudomonas capsulata, strain B10, are purified to a homogeneous state and characterized. The molecular mass of ferredoxin I is about 12 kDa and that of ferredoxin II, 18 kDa. Ferredoxin I contains 8 Fe²⁺ and 8 S^2?; ferredoxin II has 4 Fe²⁺ and 4 S^2? per molecule. The redox potential of ferredoxin I is about ?270 mV and that of ferredoxin II ?419 mV. Ferredoxin I is more labile to the action of O₂, O^?₂, H₂O₂ and heating. The ferredoxins are also different in their absorption and EPR spectra, amino acid composition and electron-transfer activity to Rps. capsulata nitrogenase: both C₂H₂ reduction and H₂ evolution by Rps. capsulata nitrogenase proceed faster in the presence of ferredoxin I than in case of ferredoxin II. Synthesis of ferredoxin I takes place only in Rps. capsulata nitrogen-fixing cells grown in light under anaerobic conditions whereas ferredoxin II formation does not depend on the source of nitrogen or the growth medium, though the amount of ferredoxin II varies with the growth conditions. Its highest level has been found in the cells grown in lactate-limited medium in the presence of CO₂ and light or in the presence of glutamate in darkness under anaerobic conditions.