Abstract
Three enzymes of the Mentha essential oil biosynthetic pathway are highly homologous, namely the ketoreductases (−)‐menthone:(−)‐menthol reductase and (−)‐menthone:(+)‐neomenthol reductase, and the “ene” reductase isopiperitenone reductase. We identified a rare catalytic residue substitution in the last two, and performed comparative crystal structure analyses and residue‐swapping mutagenesis to investigate whether this determines the reaction outcome. The result was a complete loss of native activity and a switch between ene reduction and ketoreduction. This suggests the importance of a catalytic glutamate vs. tyrosine residue in determining the outcome of the reduction of α,β‐unsaturated alkenes, due to the substrate occupying different binding conformations, and possibly also to the relative acidities of the two residues. This simple switch in mechanism by a single amino acid substitution could potentially generate a large number of de novo ene reductases.
Highlights
Three enzymes of the Mentha essential oil biosynthetic pathway are highly homologous, namely the ketoreductases (À)-menthone:(À)-menthol reductase and (À)menthone:(+)-neomenthol reductase, and the “ene” reductase isopiperitenone reductase
We identified a rare catalytic residue substitution in the last two, and performed comparative crystal structure analyses and residue-swapping mutagenesis to investigate whether this determines the reaction outcome
The result was a complete loss of native activity and a switch between ene reduction and ketoreduction
Summary
Three enzymes of the Mentha essential oil biosynthetic pathway are highly homologous, namely the ketoreductases (À)-menthone:(À)-menthol reductase and (À)menthone:(+)-neomenthol reductase, and the “ene” reductase isopiperitenone reductase. Biotransformations with MMR and MNMR showed only ketoreduction products, with no detectable double bond reduction (Figure S4).[1a,b] Reactions with 1 a and 1 b generated the menthol isomers 2 a–d
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