A Hydrolase‐Catalyzed Cyclization Forms the Fused Bicyclic β‐Lactone in Vibralactone

A Hydrolase‐Catalyzed Cyclization Forms the Fused Bicyclic β‐Lactone in Vibralactone

Vibralactone is isolated from the basidiomycete fungus Boreostereum vibrans as one of the strongest lipase inhibitors. Its unusual β‐lactone‐fused bicycle is derived from an aryl ring moiety by an oxidative ring‐expansion prior to an intramolecular cyclization. Herein, we report the discovery of the...

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Bibliographic Details
Published in:Angewandte Chemie International Edition Vol. 59; no. 18; pp. 7209 - 7213
Main Authors: Feng, Ke‐Na, Yang, Yan‐Long, Xu, Yu‐Xing, Zhang, Yue, Feng, Tao, Huang, Sheng‐Xiong, Liu, Ji‐Kai, Zeng, Ying
Format: Journal Article
Language:English
Published: Germany Wiley Subscription Services, Inc 27-04-2020
Edition:International ed. in English
Subjects:
Aldehydes
aldol
Aromatic compounds
Basidiomycota - chemistry
Bicycles
Biocatalysis
Biodiversity
Biological Products - chemistry
Biological Products - metabolism
Biosynthesis
Crystallography, X-Ray
Cyclization
Exploitation
Fungi
Hydrolase
Hydrolases - chemistry
Hydrolases - metabolism
Lactones - chemistry
Lactones - isolation & purification
Lactones - metabolism
Lipase
Models, Molecular
Molecular Structure
Natural products
pericyclic reactions
protein structures
pericyclic reactions
protein structures
natural products
biosynthesis
aldol
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Summary:Vibralactone is isolated from the basidiomycete fungus Boreostereum vibrans as one of the strongest lipase inhibitors. Its unusual β‐lactone‐fused bicycle is derived from an aryl ring moiety by an oxidative ring‐expansion prior to an intramolecular cyclization. Herein, we report the discovery of the cyclase VibC which belongs to the α/β‐hydrolase superfamily and is involved in the vibralactone biosynthesis. Biochemical and crystal studies suggest that VibC may catalyze an aldol or an electrocyclic reaction initiated by the Ser‐His‐Asp catalytic triad. For the aldol and pericyclic chemistry in living cells, VibC is a unique hydrolase performing the carbocycle formation of an oxepinone to a fused bicyclic β‐lactone. This presents a naturally occurring, new enzymatic reaction in both aldol and hydrolase (bio)chemistry that will guide future exploitation of these enzymes in synthetic biology for chemical‐diversity expansion of natural products. The cyclization of an oxepinone (3) to form a fused bicyclic β‐lactone (1) proceeds by a ring‐opening aldol‐lactonization cascade or a pericyclic reaction driven by the Ser‐His‐Asp catalytic triad of the cyclase VibC from the basidiomycete Boreostereum vibrans.
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ISSN:1433-7851
1521-3773
DOI:10.1002/anie.202000710