P450 in C-C coupling of cyclodipeptides with nucleobases.

Abstract

Bacterial cytochrome P450 enzymes catalyze various and often intriguing tailoring reactions during the biosynthesis of natural products. In contrast to the majority of membrane-bound P450 enzymes from eukaryotes, bacterial P450 enzymes are soluble proteins and therefore represent excellent candidates for in vitro biochemical investigations. In particular, cyclodipeptide synthase-associated cytochrome P450 enzymes have recently gained attention due to the broad spectrum of reactions they catalyze, i.e. hydroxylation, aromatization, intramolecular C-C bond formation, dimerization, and nucleobase addition. The latter reaction has been described during the biosynthesis of guanitrypmycins, guatrypmethines and guatyromycines in various Streptomyces strains, where the nucleobases guanine and hypoxanthine are coupled to cyclodipeptides via C-C, C-N, and C-O bonds. In this chapter, we provide an overview of cytochrome P450 enzymes involved in the C-C coupling of cyclodipeptides with nucleobases and describe the protocols used for the successful characterization of these enzymes in our laboratory. The procedure includes cloning of the respective genes into expression vectors and subsequent overproduction of the corresponding proteins in E. coli as well as heterologous expression in Streptomyces. We describe the purification and in vitro biochemical characterization of the enzymes and protocols to isolate the produced compounds for structure elucidation.