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A peroxisomal heterodimeric enzyme is involved in benzaldehyde synthesis in plants

Xingqi Huang, Renqiuguo Li, Jianxin Fu, Natalia Dudareva

2022Nature Communications76 citationsDOIOpen Access PDF

Abstract

Benzaldehyde, the simplest aromatic aldehyde, is one of the most wide-spread volatiles that serves as a pollinator attractant, flavor, and antifungal compound. However, the enzyme responsible for its formation in plants remains unknown. Using a combination of in vivo stable isotope labeling, classical biochemical, proteomics and genetic approaches, we show that in petunia benzaldehyde is synthesized via the β-oxidative pathway in peroxisomes by a heterodimeric enzyme consisting of α and β subunits, which belong to the NAD(P)-binding Rossmann-fold superfamily. Both subunits are alone catalytically inactive but, when mixed in equal amounts, form an active enzyme, which exhibits strict substrate specificity towards benzoyl-CoA and uses NADPH as a cofactor. Alpha subunits can form functional heterodimers with phylogenetically distant β subunits, but not all β subunits partner with α subunits, at least in Arabidopsis. Analysis of spatial, developmental and rhythmic expression of genes encoding α and β subunits revealed that expression of the gene for the α subunit likely plays a key role in regulating benzaldehyde biosynthesis.

Topics & Concepts

BiochemistryBenzaldehydePeroxisomeEnzymeProtein subunitCofactorChemistryGeneArabidopsisBiologyMutantCatalysisPeroxisome Proliferator-Activated ReceptorsGABA and Rice ResearchBiochemical and biochemical processes