Main observation and conclusion
The radical S‐adenosylmethionine (SAM) enzyme NosL catalyzes the conversion of L‐tryptophan (L‐Trp, 1) to 3‐methyl‐2‐indolic acid (MIA, 2), a key intermediate in the biosynthesis of the peptide antibiotic nosiheptide. Previous study showed that this remarkable recombination reaction starts from the cleavage of the Cα—COO– bond to result in a •CO2− radical migration. In contrast to the radical SAM tyrosine lyases, NosL appears unable to cleave the Cα—Cβ bond, which is intrinsically more favorable to be cleaved than the Cα—COO– bond. In this study, we investigate the NosL activity with tryptamine (11) and tryptophol (12), two L‐Trp analogues lacking a carboxylate moiety. We showed that NosL cleaves the C1—C2 bond of these two substrates to produce 3‐methylindole (7), suggesting that the enzyme can still catalyze a β‐scission when the carboxyl group of Trp is absent. We also showed the enzyme exhibits a promiscuous activity, initiating the reaction by abstracting hydrogen atoms from two different sites to produce two sets of products.