Identification of distinct NAD-linked hydrogenase protein species in mutants and nickel-deficient wild-type cells of Alcaligenes eutrophus H16 |
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Authors: | S Hornhardt K Schneider B Friedrich B Vogt H G Schlegel |
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Affiliation: | Institut für Mikrobiologie, Universit?t G?ttingen, Federal Republic of Germany. |
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Abstract: | By crossed immunoelectrophoresis with antibodies against the NAD-linked hydrogenase the presence of three hydrogenase protein species was demonstrated in crude extracts of Alcaligenes eutrophus H16. Protein 1 (antigen 1) exhibited NAD-reducing activity and was shown to be identical with the native heterotetrameric enzyme. Protein 2 (antigen 2) was catalytically inactive in the antibody-precipitated form and corresponded to the beta subunit (56 kDa) of the holoenzyme. Protein 3 (antigen 3) was serologically distinct from antigen 2 and catalyzed NADH-oxidizing (diaphorase) activity, suggesting that it either consists of the alpha peptide or of the alpha and gamma subunits of the diaphorase dimer. Tandem immunoelectrophoresis revealed that antigen 2 was the predominant protein species in cells cultivated under nickel deficiency. Low concentrations of the diaphorase-active antigen 3 were also detected under these conditions. Extracts from mutants defective in the catalytic activity of NAD-reducing hydrogenase still contained the four polypeptides. This was shown by immunodiffusion and immunoblotting with antibodies raised against the individual subunits. However, as observed with nickel-deficient cells, no complete tetrameric protein could be identified, and the dominant subunit species (70-80%) was the beta peptide. |
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