The Feâonly nitrogenase and the Mo nitrogenase from Rhodobacter capsulatus: A comparative study on the redox properties of the metal clusters present in the dinitrogenase components
2002
Siemann, Stefan | Schneider, Klaus | Dröttboom, Melanie | Müller, Achim
The dinitrogenase component proteins of the conventional Mo nitrogenase (MoFe protein) and of the alternative Feâonly nitrogenase (FeFe protein) were both isolated and purified from Rhodobacter capsulatus, redoxâtitrated according to the same procedures and subjected to an EPR spectroscopic comparison. In the course of an oxidative titration of the MoFe protein (Rc1Mo) three significant Sâ=â1/2 EPR signals deriving from oxidized states of the Pâcluster were detected: (1) a rhombic signal (gâ=â2.07, 1.96 and 1.83), which showed a bellâshaped redox curve with midpoint potentials (Em) of â195âmV (appearance) and â30âmV (disappearance), (2) an axial signal (g||â=â2.00, gâ¥â=â1.90) with almost identical redox properties and (3) a second rhombic signal (gâ=â2.03, 2.00, 1.90) at higher redox potentials (>â100âmV). While the âlowâpotentialâ rhombic signal and the axial signal have been both attributed to the oneâelectronâoxidized Pâcluster (P1+) present in two conformationally different proteins, the âhighâpotentialâ rhombic signal has been suggested rather to derive from the P3+ state. Upon oxidation, the FeFe protein (Rc1Fe) exibited three significant Sâ=â1/2 EPR signals as well. However, the Rc1Fe signals strongly deviated from the MoFe protein signals, suggesting that they cannot simply be assigned to different Pâcluster states. (a) The most prominent feature is an unusually broad signal at gâ=â2.27 and 2.06, which proved to be fully reversible and to correlate with catalytic activity. The cluster giving rise to this signal appears to be involved in the transfer of two electrons. The midpoint potentials determined were: â80âmV (appearance) and 70âmV (disappearance). (b) Under weakly acidic conditions (pHâ6.4) a slightly altered EPR signal occurred. It was characterized by a shift of the gâvalues to 2.22 and 2.05 and by the appearance of an additional negative absorptionâshaped peak at gâ=â1.86. (c) A very narrow rhombic EPR signal at gâ=â2.00, 1.98 and 1.96 appeared at positive redox potentials (Emâ=â80âmV, intensity maximum at 160âmV). Another novel Sâ=â1/2 signal at gâ=â1.96, 1.92 and 1.77 was observed on further, enzymatic reduction of the dithioniteâreduced state of Rc1Fe with the dinitrogenase reductase component (Rc2Fe) of the same enzyme system (turnover conditions in the presence of N2 and ATP). When the Rc1Mo protein was treated analogously, neither this âturnover signalâ nor any other Sâ=â1/2 signal were detectable. All Rc1Feâspecific EPR signals detected are discussed and tentatively assigned with special consideration of the reference spectra obtained from Rc1Mo preparations.
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