| Abstract: | The soluble hydrogenase (hydrogen:NAD+ oxidoreductase (EC 1.12.1.2) from Alcaligenes eutrophus has been purified to homogeneity by an improved procedure, which includes preparative electrophoresis as final step. The specific activity of 57 mumol H2 oxidized/min per mg protein was achieved and the yield of pure enzyme from 200 g cells (wet weight) was about 16 mg/purification. After removal of non-functional iron, analysis of iron and acid-labile sulphur yielded average values of 11.5 and 12.9 atoms/molecule of enzyme, respectively. p-Chloromercuribenzoate was a strong inhibitor of hydrogenase and apparently competed with NAD not with H2. Chelating agents, CO and O2 failed to inhibit enzyme activity. The oxidized hydrogenase showed an EPR spectrum with a small signal at g = 2.02. On reduction the appearance of a high temperature (50--77 K) signal at g = 2.04, 1.95 and a more complex low temperature (less than 30 K) spectrum at g = 2.04, 2.0, 1.95, 1.93, 1.86 was observed. The pronounced temperature dependence and characteristic lineshape of the signals obtained with hydrogenase in 80--85% dimethylsulphoxide demonstrated that iron-sulphur centres of both the 2Fe-2S] and 4Fe-4S] types are present in the enzyme. Quantitation of the EPR signals indicated the existence of two identical centres each of the 4Fe-4S] and of the 2Fe-2S] type. The midpoint redox potentials of the 4Fe-4S] and the 2Fe-2S] centres were determined to be -445 mV and -325 mV, respectively. Spin coupling between two centres, indicated by the split feature of the low temperature spectrum of the native hydrogenase around g = 1.95, 1.93, has been established by power saturation studies. On reduction of the Fe-4S] centres, the electron spin relaxation rate of the 2Fe-2S] centres was considerably increased. Treatment of hydrogenase with CO caused no change in EPR spectra. |
