Nitrogenase-like enzymes play a vital role in the reduction of the conjugated ring systems of diverse tetrapyrrole molecules. The biosynthesis of all bacteriochlorophylls involves the two-electron reduction of the C7–C8 double bond of the green pigment chlorophyllide, which is catalyzed by the nitrogenase-like two-component metalloenzyme chlorophyllide oxidoreductase (COR); whereas in all methanogenic microbes, another nitrogenase-like system, CfbC/D, is responsible for the sophisticated six-electron reduction of Ni2+-sirohydrochlorin a,c-diamide in the course of coenzyme F430 biosynthesis. The first part of this chapter describes the production and purification of the COR components (BchY/BchZ)2 and BchX2, the measurement of COR activity, and the trapping of the ternary COR complex; and the second part describes the strategy for obtaining homogenous and catalytically active preparations of CfbC2 and CfbD2 and a suitable method for extracting the reaction product Ni2+-hexahydrosirohydrochlorin a,c-diamide.
CITATION STYLE
Moser, J., Jasper, J., Ramos, J. V., Sowa, S. T., & Layer, G. (2019). Expression, purification, and activity analysis of chlorophyllide oxidoreductase and Ni2+-Sirohydrochlorin a,c-Diamide Reductase. In Methods in Molecular Biology (Vol. 1876, pp. 125–140). Humana Press Inc. https://doi.org/10.1007/978-1-4939-8864-8_8
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