An organic O donor for biological hydroxylation reactions.
Katayoun Kazemzadeh FerizhendiPhilippe SimonLudovic PelosiEmmanuel SéchetRoache ArulanandamMahmoud Hajj ChehadeMartial ReyDeniz OnalLaura FlandrinRouba ChreimBruno FaivreSamuel Chau-Duy-Tam VoRodrigo Arias-CartinFrédéric BarrasMarc FontecaveEmmanuelle BouveretMurielle LombardFabien PierrelPublished in: Proceedings of the National Academy of Sciences of the United States of America (2024)
All biological hydroxylation reactions are thought to derive the oxygen atom from one of three inorganic oxygen donors, O 2 , H 2 O 2, or H 2 O. Here, we have identified the organic compound prephenate as the oxygen donor for the three hydroxylation steps of the O 2 -independent biosynthetic pathway of ubiquinone, a widely distributed lipid coenzyme. Prephenate is an intermediate in the aromatic amino acid pathway and genetic experiments showed that it is essential for ubiquinone biosynthesis in Escherichia coli under anaerobic conditions. Metabolic labeling experiments with 18 O-shikimate, a precursor of prephenate, demonstrated the incorporation of 18 O atoms into ubiquinone. The role of specific iron-sulfur enzymes belonging to the widespread U32 protein family is discussed. Prephenate-dependent hydroxylation reactions represent a unique biochemical strategy for adaptation to anaerobic environments.