The Molybdenum Nitrogenase from Wild‐type Xanthobacter autotrophicus Exhibits Properties Reminiscent of Alternative Nitrogenases

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Abstract

In the presence of molybdate (1 μM) 2–3.5% oxygen and with sucrose as carbon source, Xanthobacter autotrophicus GZ29, a microaerophilic nitrogen‐fixing hydrogen‐oxidizing bacterium, grew diazotrophically with a minimal doubling time of 2.5 h and a calculated absorbance of up to 52 (546 nm). The maximal specific activity obtained was 145 nmol ethylene reduced ċ min−1· mg protein−1 (crude extract). The Mo nitrogenase was derepressed to a comparable level with methionine as nitrogen source. Vanadium compounds stimulated neither growth nor nitrogenase activity. Without added molybdate, diazotrophic growth and nitrogenase activity decreased to an extremely low level. The nitrogenase, responsible for the residual activity in molybdate‐starved cells, contained molybdate but no other heterometal atom. These results indicate that, in X. autotrophicus, a Mo‐independent nitrogenase does not exist. However, the molybdate‐containing nitrogenase exhibited some properties which are reminiscent of alternative nitrogenases. The MoFe protein (component 1, Xa1) copurified with two molecules of a small, not previously detected polypeptide (molar mass 13.6 kDa) and was able to reduce acetylene not only to ethylene but also partly to ethane. Under certain conditions, i.e. in Tris/HCl buffer at alkaline pH values, with titanium (III) citrate as electron donor, at high component 1/component 2 ratios, and at low, non‐saturating acetylene concentrations, up to 5.5% ethane was measured. Parallel to the pH‐dependent increase of the relative yield of ethane, the total activity (both acetylene and nitrogen reduction rates) decreased and the S =3/2 FeMo cofactor ESR signal was split into three signals with different rhombicities [E/D values of 0.036 (signal I), 0.072 (signal II) and 0.11 (signal III)]. The intensities of the two new FeMo cofactor signals were more pronounced the more alkaline the pH. They could be further enhanced using titanium (III) citrate instead of Na2S2O4 as reductant. Copyright © 1995, Wiley Blackwell. All rights reserved

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Schneider, K., Müller, A., Krahn, E., Hagen, W. R., Wassink, H., & Knüttel, K. ‐H. (1995). The Molybdenum Nitrogenase from Wild‐type Xanthobacter autotrophicus Exhibits Properties Reminiscent of Alternative Nitrogenases. European Journal of Biochemistry, 230(2), 666–675. https://doi.org/10.1111/j.1432-1033.1995.0666h.x

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