Purification and properties of a bacterial-type ferredoxin from the nitrogen-fixing cyanobacterium Anabaena variabilis ATCC29413.

Three soluble ferredoxins were purified to homogeneity from nitrogen-fixing cultures of Anabaena variabilis (ATCC 29413) and characterized. The purified proteins have different absorption spectra, molecular mass, iron content, amino-acid composition and resistance to O2 inactivation. Two were plant-type ferredoxins FdI and FdxH, corresponding to the previously reported ferredoxins II and I (Böhme, H. and Schrautemeier, B. (1987) Biochim. Biophys. Acta 891, 1-7). The third ferredoxin (ferredoxin III) (previously not described in cyanobacteria) was a bacterial-type ferredoxin. Ferredoxin III has a molecular mass of about 6 kDa and contains 3-4 atoms Fe/mol. Native (oxidized) ferredoxin III shows an EPR-signal at g = 2.014 that disappears after reduction by dithionite, characteristic of ferredoxins containing three-iron clusters. Ferredoxin III, like ferredoxin FdxH, is inactivated by oxygen. Ferredoxin III supports higher rates of C2H2 reduction by Rhodobacter capsulatus nitrogenase than FdI and higher rates of H2 evolution by clostridial hydrogenase than FdI and FdxH. Combined nitrogen suppresses the synthesis of both nitrogenase and ferredoxin III. These data suggest a possible role of ferredoxin III (bacterial-type) in nitrogen fixation by A. variabilis.