Saikosaponins are the major pharmacologically active components in Bupleurum genus and exhibit significant application potential in multiple fields such as immune regulation and anti-tumor activity.To elucidate the bi...Saikosaponins are the major pharmacologically active components in Bupleurum genus and exhibit significant application potential in multiple fields such as immune regulation and anti-tumor activity.To elucidate the biosynthetic pathway of saikosaponins,we identified two cytochrome P450 monooxygenases,CYP716A41 and CYP716Y4,in Bupleurum chinense.These enzymes catalyze the C-28 oxidation and C-16 hydroxylation of oleanane-type triterpene skeletons,respectively.The catalytic efficiency of CYP716A41 from a southern B.chinense variety was significantly higher than that from a northern variety.Molecular docking and mutagenesis experiments revealed that amino acid residues at sites 9 and 35 may contribute to this difference in catalytic efficiency.Additionally,under cold stress,the expression levels of both CYP450 genes and the saikosaponin contents in the leaves of southern varieties were significantly higher compared to those in northern varieties.The variation in the catalytic efficiency of CYP716A41 and the differential expression of the two CYP450 genes under cold stress during winter are associated with the differences in saikosaponin biosynthesis in the leaves of southern and northern B.chinense varieties.This is consistent with the distinct medicinal usage practices observed between southern and northern China.展开更多
Betulinic acid(BA),a penta-cyclic triterpenoid found as a ubiquitous secondary metabolite throughout the plant kingdom,has aroused tremendous interests due to its different pharmacological properties,which lead to lar...Betulinic acid(BA),a penta-cyclic triterpenoid found as a ubiquitous secondary metabolite throughout the plant kingdom,has aroused tremendous interests due to its different pharmacological properties,which lead to large market demand.However,the content of BA in plant is low for phytoextraction.Although chemical semi-synthesis or biotransformation of BA from betulin with high conversion efficiency is achieved,it still relies on phytoextraction from the bark of medicinal trees.To circumvent this issue,the biotechnological synthesis of BA in engineered yeasts has been developed.In this review,the pharmacological properties of BA are first summarized,including antitumor,anti-HIV,antiprotozoal,anti-inflammatory,apoptosis activator and anti-metabolic syndrome.Then,the traditional phytoextraction,semi-synthesis and biotechnological synthesis of BA are discussed.Particularly,current advances in its biotechnological synthesis and strategies to improve BA production are focused.Moreover,potential strategies for further promotion of BA yield,including the introduction of artificial isopentenol utilization pathway,semi-rational mutagenesis of lupeol synthase and cytochrome P450,and subcellular morphology and compartmentalization,are discussed.展开更多
基金supported by CARS(CARS-21),the CAMS Innovation Fund for Medical Sciences(2021-I2M-1-032)the Science and Technology Department of Xizang(XZ202401ZY0020)+2 种基金the Science and Technology Department of Sichuan Province(2023YFH0044,2023YFH0018)the Sichuan Province Science Foundation for Distinguished Young Scholars(2022JDJQ0006)the Doctoral Fund of Southwest University of Science and Technology(19ZX7117,21ZX7116).
文摘Saikosaponins are the major pharmacologically active components in Bupleurum genus and exhibit significant application potential in multiple fields such as immune regulation and anti-tumor activity.To elucidate the biosynthetic pathway of saikosaponins,we identified two cytochrome P450 monooxygenases,CYP716A41 and CYP716Y4,in Bupleurum chinense.These enzymes catalyze the C-28 oxidation and C-16 hydroxylation of oleanane-type triterpene skeletons,respectively.The catalytic efficiency of CYP716A41 from a southern B.chinense variety was significantly higher than that from a northern variety.Molecular docking and mutagenesis experiments revealed that amino acid residues at sites 9 and 35 may contribute to this difference in catalytic efficiency.Additionally,under cold stress,the expression levels of both CYP450 genes and the saikosaponin contents in the leaves of southern varieties were significantly higher compared to those in northern varieties.The variation in the catalytic efficiency of CYP716A41 and the differential expression of the two CYP450 genes under cold stress during winter are associated with the differences in saikosaponin biosynthesis in the leaves of southern and northern B.chinense varieties.This is consistent with the distinct medicinal usage practices observed between southern and northern China.
基金supported by the National Key R&D Program of China(2018YFA0901700)the Natural Science Foundation of Jiangsu Province(BK20202002)the Postgraduate Research and Practice Innovation Program of Jiangsu Province(KYCX18_1789).
文摘Betulinic acid(BA),a penta-cyclic triterpenoid found as a ubiquitous secondary metabolite throughout the plant kingdom,has aroused tremendous interests due to its different pharmacological properties,which lead to large market demand.However,the content of BA in plant is low for phytoextraction.Although chemical semi-synthesis or biotransformation of BA from betulin with high conversion efficiency is achieved,it still relies on phytoextraction from the bark of medicinal trees.To circumvent this issue,the biotechnological synthesis of BA in engineered yeasts has been developed.In this review,the pharmacological properties of BA are first summarized,including antitumor,anti-HIV,antiprotozoal,anti-inflammatory,apoptosis activator and anti-metabolic syndrome.Then,the traditional phytoextraction,semi-synthesis and biotechnological synthesis of BA are discussed.Particularly,current advances in its biotechnological synthesis and strategies to improve BA production are focused.Moreover,potential strategies for further promotion of BA yield,including the introduction of artificial isopentenol utilization pathway,semi-rational mutagenesis of lupeol synthase and cytochrome P450,and subcellular morphology and compartmentalization,are discussed.
