Selenocysteine (Sec) is the 21st proteogenic amino acid and it is now widely accepted that Sec is involved in redox biochemistry when incorporated in proteins. However, many of the chemical mechanisms for Sec bioactivity remain unknown. Herein, we describe a derivative of Sec, alpha-methyl Sec ((αMe)Sec), that is a useful chemical tool to study selenoenzyme mechanisms. (αMe)Sec is identical to Sec except the Cα-H is replaced with a Cα-methyl group, which prevents this derivative from undergoing oxygen-mediated β-syn elimination to dehydroalanine, which is a common problem with Sec-containing peptides and proteins. Thus, since (αMe)Sec-containing peptides and proteins cannot lose the side-chain selenium atom when oxidized, mechanistic studies can be performed that are not always possible with Sec. In this chapter, we provide detailed methods for the incorporation of (αMe)Sec into peptides using solid phase peptide synthesis and subsequent incorporation into mammalian thioredoxin reductase using protein semisynthesis. We then provide two examples of how (αMe)Sec has been used as a chemical tool to study selenoenzyme mechanism. Finally, we discuss future applications where we envision (αMe)Sec will be useful.
Keywords: Acrolein; Alpha-methyl selenocysteine; Reactive electrophilic species; Reactive oxygen species; Selenocysteine; Selenoproteins; Thioredoxin reductase; β-syn elimination reaction.
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