Class I Methyltransferase VioH Catalyzes Unusual S‑Adenosyl‑l‑methionine Cyclization
Leading to 4‑Methylazetidinecarboxylic Acid Formation during
Vioprolide Biosynthesis
posted on 2018-12-12, 00:00authored byFu Yan, Rolf Müller
S-Adenosyl-l-methionine (SAM)-dependent
methyltransferases are intensely studied because they play important
roles in the methylation of biomolecules in all domains of life. In
this study, we describe that the methyltransferase VioH from Cysotobacter violaceus catalyzes a so far unknown cyclization
of SAM to azetidine-2-carboxylic acid (AZE), which is proposed to
be the precursor of the unusual 4-methylazetidinecarboxylic acid (MAZ)
moiety of vioprolides. In vitro biochemical investigations
reveal that SAM is converted to AZE in the presence of VioH while
MAZ is generated by coexpression of VioH and the radical SAM enzyme
VioG in Myxococcus xanthus or by combination of VioH
and the cell lysate of M. xanthus expressing VioG.
Thus, our findings unveil a novel function of SAM-dependent methyltransferases
and shed light on the biosynthetic mechanism of MAZ formation.