Enzymatic Synthesis of s-Substituted l-Cysteines with Tryptophan Synthase of Escherichia coli

The α₂β₂ complex of tryptophan synthase from Escherichia coli catalyzes β-replacement reactions of l-serine and its derivatives (e.g., β-chloro-l-alanine and O-methyl-Dl-serine) with various alkanethiols. The products from thiobenzyl alcohol and ethanethiol were isolated to demonstrate the enzymatic synthesis of the corresponding S-substituted l-cysteines. Reactivities of various S-substituent donors were examined, and thiols such as thiobenzyl alcohol, 1-propanethiol and 1-butanethiol were found to be much more efficient substituent donors than the physiological substrate, indole. In addition, tryptophan synthase catalyzes β-replacement reactions of l-threonine with thiols to form the corresponding S-substituted β-methylcysteines, which are also produced by β-addition reactions of l-vinylglycine with thiols. These enzymatic reactions facilitate the synthesis of various sulfur-containing amino acids.