Mechanism of <i>S</i>‑Adenosyl‑l‑methionine <i>C</i>‑Methylation by Cobalamin-dependent Radical <i>S</i>‑Adenosyl‑l‑methionine Methylase in 1‑Amino-2-methylcyclopropanecarboxylic Acid Biosynthesis
- Fumitaka Kudo (1388382)
- Atsushi Minato (14208990)
- Shusuke Sato (4232590)
- Nayuta Nagano (14208993)
- Chitose Maruyama (8519298)
- Yoshimitsu Hamano (149104)
- Junko Hashimoto (1374684)
- Ikuko Kozone (504412)
- Kazuo Shin-ya (133016)
- Tadashi Eguchi (1388379)
Publication date
December 2022
DOI Publisher
American Chemical Society (ACS)Abstract
The radical S-adenosyl-l-methionine (SAM) methylase Orf29 catalyzes the C-methylation of SAM in the biosynthesis of 1-amino-2-methylcyclopropanecarboxylic acid. Here, we determined that the methylation product is (4″R)-4″-methyl-SAM. Furthermore, we found that the 5′-deoxyadenosyl radical generated by Orf29 abstracts the pro-R hydrogen atom from the C-4″ position of SAM to generate the radical intermediate, which reacts with methylcobalamin to give (4″R)-4″-methyl-SAM. Consequently, the Orf29-catalyzed C-methylation was confirmed to proceed with retention of configuration
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