Methods for biochemical characterization of flavin-dependent N-monooxygenases involved in siderophore biosynthesis.

Siderophores are essential molecules released by some bacteria and fungi in iron-limiting environments to sequester ferric iron, satisfying metabolic needs. Flavin-dependent N-hydroxylating monooxygenases (NMOs) catalyze the hydroxylation of nitrogen atoms to generate important siderophore functional groups such as hydroxamates. It has been demonstrated that the function of NMOs is essential for virulence, implicating these enzymes as potential drug targets. This chapter aims to serve as a resource for the characterization of NMO's enzymatic activities using several biochemical techniques. We describe assays that allow for the determination of steady-state kinetic parameters, detection of hydroxylated amine products, measurement of the rate-limiting step(s), and the application toward drug discovery efforts. While not exhaustive, this chapter will provide a foundation for the characterization of enzymes involved in siderophore biosynthesis, allowing for gaps in knowledge within the field to be addressed.

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