UC Santa Barbara

Cysteine thiyl radicals are implicated as cofactors in a variety of enzymatic transformations, as well as transient byproducts of oxidative stress, yet their reactivity has undermined their detailed study. Selenocysteine exhibits a lower corresponding selenyl radical reduction potential, thus taming this radical reactivity without significant steric perturbation, potentially affording a glimpse into otherwise fleeting events in thiyl radical catalysis. In this chapter, we describe a suite of fusion protein constructs for general and efficient production of site-specifically incorporated selenoproteins by a recently developed nonsense suppression technology. As a proof of concept, we produced NikJ, a member of the radical S-adenosyl methionine enzyme family involved in the biosynthesis of peptidyl nucleoside antibiotics. We place emphasis throughout the plasmid assembly, protein expression, and selenium quantitation on accommodating the structural and functional diversity of thiyl radical enzymes. The protocol produces NikJ with near quantitative selenocysteine insertion, 50% nonsense read-through, and facile protein purification.