In vitro analysis of the three-component Rieske oxygenase cumene dioxygenase from Pseudomonas fluorescens IP01

Rieske non-heme iron-dependent oxygenases (ROs) are a versatile group of enzymes traditionally associated with the degradation of aromatic xenobiotics. In addition, ROs have been found to play key roles in natural product biosynthesis, displaying a wide catalytic diversity with typically high regio- and stereo- selectivity. However, the detailed characterization of ROs presents formidable challenges due to their complex structural and functional properties, including their multi-component composition, cofactor dependence, and susceptibility to reactive oxygen species. In addition, the substrate availability of natural product biosynthetic intermediates, the limited solubility of aromatic hydrocarbons, and the radical-mediated reaction mechanism can further complicate functional assays. Despite these challenges, ROs hold immense potential as biocatalysts for pharmaceutical applications and bioremediation. Using cumene dioxygenase (CDO) from Pseudomonas fluorescens IP01 as a model enzyme, this chapter details techniques for characterizing ROs that oxyfunctionalize aromatic hydrocarbons. Moreover, potential pitfalls, anticipated complications, and proposed solutions for the characterization of novel ROs are described, providing a framework for future RO research and strategies for studying this enzyme class. In particular, we describe the methods used to obtain CDO, from construct design to expression conditions, followed by a purification procedure, and ultimately activity determination through various activity assays.