Hannah Hodgson scite author profile

Limonoids are natural products made by plants belonging to the Meliaceae (Mahogany) and Rutaceae (Citrus) families. They are well known for their insecticidal activity, contribution to bitterness in citrus fruits, and potential pharmaceutical properties. The best known limonoid insecticide is azadirachtin, produced by the neem tree (Azadirachta indica). Despite intensive investigation of limonoids over the last half century, the route of limonoid biosynthesis remains unknown. Limonoids are classified as tetranortriterpenes because the prototypical 26-carbon limonoid scaffold is postulated to be formed from a 30-carbon triterpene scaffold by loss of 4 carbons with associated furan ring formation, by an as yet unknown mechanism. Here we have mined genome and transcriptome sequence resources for 3 diverse limonoid-producing species (A. indica, Melia azedarach, and Citrus sinensis) to elucidate the early steps in limonoid biosynthesis. We identify an oxidosqualene cyclase able to produce the potential 30-carbon triterpene scaffold precursor tirucalla-7,24-dien-3β-ol from each of the 3 species. We further identify coexpressed cytochrome P450 enzymes from M. azedarach (MaCYP71CD2 and MaCYP71BQ5) and C. sinensis (CsCYP71CD1 and CsCYP71BQ4) that are capable of 3 oxidations of tirucalla-7,24-dien-3β-ol, resulting in spontaneous hemiacetal ring formation and the production of the protolimonoid melianol. Our work reports the characterization of protolimonoid biosynthetic enzymes from different plant species and supports the notion of pathway conservation between both plant families. It further paves the way for engineering crop plants with enhanced insect resistance and producing high-value limonoids for pharmaceutical and other applications by expression in heterologous hosts.

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Complex scaffold remodeling in plant triterpene biosynthesis

Peña

Hodgson

Liu

et al. 2023

Science

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Triterpenes with complex scaffold modifications are widespread in the plant kingdom. Limonoids are an exemplary family that are responsible for the bitter taste in citrus (e.g., limonin) and the active constituents of neem oil, a widely used bioinsecticide (e.g., azadirachtin). Despite the commercial value of limonoids, a complete biosynthetic route has not been described. We report the discovery of 22 enzymes, including a pair of neofunctionalized sterol isomerases, that catalyze 12 distinct reactions in the total biosynthesis of kihadalactone A and azadirone, products that bear the signature limonoid furan. These results enable access to valuable limonoids and provide a template for discovery and reconstitution of triterpene biosynthetic pathways in plants that require multiple skeletal rearrangements and oxidations.

show abstract

Complex scaffold remodeling in plant triterpene biosynthesis

Peña

Hodgson

Liu

et al. 2022

Preprint

View full text Add to dashboard Cite

Triterpenes with complex scaffold modifications are widespread in plants yet little is known regarding biosynthesis. Limonoids are an exemplary family that includes the bitter taste in citrus (e.g., limonin) and the active constituents in neem oil, a widely used bioinsecticide (e.g., azadirachtin). Despite limonoid commercial value, a complete biosynthetic route has not been described. Here, we report the discovery of 22 enzymes that catalyze 12 unique reactions including the 4-carbon scission and furan installation that are a signature of the limonoid family and a pair of sterol isomerases previously unknown in plants. This gene set is then used for the total biosynthesis of kihadalactone A and azadirone in a heterologous plant. These results enable access to valuable limonoids and provide a template for discovery and reconstitution of triterpene biosynthetic pathways in plants that require multiple skeletal rearrangements and oxidations.

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Hannah Hodgson

Identification of key enzymes responsible for protolimonoid biosynthesis in plants: Opening the door to azadirachtin production

Complex scaffold remodeling in plant triterpene biosynthesis

Complex scaffold remodeling in plant triterpene biosynthesis

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