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DOI: 10.1055/s-0040-1706091
Identification of the First Enzyme-Catalyzed Alder–Ene Reaction
An Enzymatic Alder–Ene Reaction.
Nature 2020;
586: 64-69
DOI: 10.1038/s41586-020-2743-5.
Significance
The groups of Zhou, Houk, and Tang report the discovery of an enzymatic Alder–ene reaction, involved in the biosynthesis of the leporin 2-pyridone alkaloids pyridoxatin and cordypyridone. The predicted SAM-independent O-methyltransferase-fold (OMT-fold) enzymes AdxI, EpiI, PdxI, ModxI, UpiI, and HpiI were identified as pericyclase enzymes that catalyze the stereoselective dehydration of the alcohol substrate to a (Z)-quinone methide and its subsequent pericyclic transformations. The origin of periselectivity was unraveled by a combination of computational studies, crystallography, and site-directed mutagenesis.
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Comment
The authors expanded the array of known pericyclase enzymes by identifying two homologous groups of enzymes that catalyze the same stereoselective syn-dehydration of a pyridone alcohol substrate, but with divergent periselectivity. Crystal structure data of PdxI and computations suggest that a lysine residue acts as general acid catalyst to favor the Alder–ene over the hetero-Diels–Alder pathway. In HpiI, a valine residue in the active site is substituted by a methionine residue that prevents this key interaction thus selectively providing the O4-hetero-Diels–Alder product.
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Publikationsverlauf
Artikel online veröffentlicht:
16. Dezember 2020
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