Ether cleaving methyltransferases of the strict anaerobe Acetobacterium dehalogenans: controlling the substrate spectrum by genetic engineering of the N‐terminus

Abstract

The anaerobic cleavage of ether bonds of methoxylated substrates such as vanillate or veratrol in acetogenic bacteria is mediated by multi-component enzyme systems, the O-demethylases. Acetobacterium dehalogenans harbours different inducible O-demethylases with various substrate spectra. Two of these enzyme systems, the vanillate- and the veratrol-O-demethylases, have been characterized so far. One component of this enzyme system, the methyltransferase I (MT I), catalyses the cleavage of the substrate ether bond and the subsequent transfer of the methyl group to a corrinoid protein. For the C-termini of the methyltransferases I of the vanillate- and the veratrol-O-demethylases, a TIM barrel structure of the enzymes was predicted, whereas the N-termini are not part of this conserved structure. The deletion of the N-terminal regions led to a significant increase of activity (up to 20-fold) and an extended substrate spectrum of the mutants, which also comprised non-aromatic compounds such as the thioether methionine and diethylether. The exchange of the N-termini of the two methyltransferases I resulted in chimeric enzymes whose substrate specificities were those of the enzymes from which the N-termini were derived. This demonstrated the crucial role of the N-termini for the substrate specificity of the methyltransferases.