Abstract:By treating the reduced MoFe protein from Azotobacter vinelandii with o-phenanthroline and O2, an inactive protein partially deficient in both FeMoco and P-cluster could be obtained. The inactive protein could be reactivated by the reconsfituent solutions of different colours which were prepared from mixture in different proportions of ferric homocitrate, Na2S and dithiothreitol (DTT) with K2CrO4, KMnO4 and Na2MoO4, respectively, the inactive protein could be somewhat reactivated by DTF but not by the other compounds or their mixtures which were deficient in one or two of the above compounds. 99Mo was found in the reconstituted protein of the inactive MoFe protein with a reconstituent solution containing 99Mo. Its measurement of differential perturbed angular correlation indicated that 41% of 99Mo in the reconstituted protein were in a state similar to that of 99Mo in 99MoFe protein from K. pneumoniae. The results showed that the reactivation of the inactive MoFe rotein was mainly based on the restoration of its metallocluster content. It seemed to be reasonable to postulate that Mn- or Cr-containing nitrogenase could be obtained likewise by the reconstitution of the inactive protein with the Mn- or Cr-containing reconstituent solution.