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A promiscuous cytochrome P450 aromatic O-demethylase for lignin bioconversion.

Nature communications (2018-06-29)
Sam J B Mallinson, Melodie M Machovina, Rodrigo L Silveira, Marc Garcia-Borràs, Nathan Gallup, Christopher W Johnson, Mark D Allen, Munir S Skaf, Michael F Crowley, Ellen L Neidle, Kendall N Houk, Gregg T Beckham, Jennifer L DuBois, John E McGeehan
RÉSUMÉ

Microbial aromatic catabolism offers a promising approach to convert lignin, a vast source of renewable carbon, into useful products. Aryl-O-demethylation is an essential biochemical reaction to ultimately catabolize coniferyl and sinapyl lignin-derived aromatic compounds, and is often a key bottleneck for both native and engineered bioconversion pathways. Here, we report the comprehensive characterization of a promiscuous P450 aryl-O-demethylase, consisting of a cytochrome P450 protein from the family CYP255A (GcoA) and a three-domain reductase (GcoB) that together represent a new two-component P450 class. Though originally described as converting guaiacol to catechol, we show that this system efficiently demethylates both guaiacol and an unexpectedly wide variety of lignin-relevant monomers. Structural, biochemical, and computational studies of this novel two-component system elucidate the mechanism of its broad substrate specificity, presenting it as a new tool for a critical step in biological lignin conversion.

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Sigma-Aldrich
2-Ethoxyphenol, 98%
Sigma-Aldrich
3-Methoxycatechol, 99%