A traditional herb that is rich in active substances such as flavonoids, polyphenols and alkaloids, Sedum aizoon L . has antioxidant and preventive effects against chronic diseases. Circadian rhythm disorders are ofte...A traditional herb that is rich in active substances such as flavonoids, polyphenols and alkaloids, Sedum aizoon L . has antioxidant and preventive effects against chronic diseases. Circadian rhythm disorders are often accompanied by changes in intestinal flora, and flavonoids that can regulate intestinal flora may be an effective way to prevent and regulate circadian rhythm disorders. In this study, we established a humanized circadian rhythm mouse model to explore the regulatory mechanism of flavonoids from Sedum aizoon L .(FSAL) on circadian rhythm disorders in mice. The results after feeding FSAL for 4 weeks showed that FSAL improved the imbalance of intestinal microbial structure caused by circadian rhythm disorders, thus regulating alanine, aspartate and glutamate metabolism, histidine metabolism and other metabolites and substances related to metabolism. The analysis of liver transcriptome showed that FSAL significantly regulated retinol metabolism, peroxisome proliferator-activated receptors(PPARs) pathway, and hepatitis C pathway in mouse liver. Therefore, this study obtained the conclusion that FSAL can regulate intestinal flora, metabolites and liver genes to improve circadian rhythm disorders and maintain mouse health.展开更多
Botrytis cinerea is a plant pathogen,which affects the quality of fruits.However,chemical antifungal agents are extremely harmful to the environment,hence it’s critical to create a natural plant-derived antifungal ag...Botrytis cinerea is a plant pathogen,which affects the quality of fruits.However,chemical antifungal agents are extremely harmful to the environment,hence it’s critical to create a natural plant-derived antifungal agent to replace chemical antifungal agents.The study explored the antifungal mechanisms of flavonoids from Sedum aizoon L.(FSAL)against B.cinerea.In the study,cell membrane served as an important breakthrough point.The minimum inhibitory concentration(MIC)of FSAL against B.cinerea was investigated.The propidium iodide(PI)staining observation of B.cinerea was explored.The activities of crucial enzymes involved in the metabolism were studied as well as the phospholipid and fatty acid changes.The expression of genes related to the membrane lipid metabolism was also measured.The results showed that FSAL had a certain inhibitory effect on B.cinerea and the MIC was 1.500 mg/mL.FSAL disrupted the cell membrane of B.cinerea,which decreased the contents of glutathione and proline at a low level as well as the membrane phospholipids.Compared with the control group,the activities of crucial enzymes were decreased,and the expression of key genes was reduced.It indicated that FSAL inhibited B.cinerea by disrupting its cell membrane,offering the possibility of a natural plant-derived antifungal agent for the preservation of fruits.展开更多
基金supported by Natural Science Foundation of Zhejiang Province[LY16C200003]Zhejiang Provincial Key Research and Development,Program[2020C02037].
文摘A traditional herb that is rich in active substances such as flavonoids, polyphenols and alkaloids, Sedum aizoon L . has antioxidant and preventive effects against chronic diseases. Circadian rhythm disorders are often accompanied by changes in intestinal flora, and flavonoids that can regulate intestinal flora may be an effective way to prevent and regulate circadian rhythm disorders. In this study, we established a humanized circadian rhythm mouse model to explore the regulatory mechanism of flavonoids from Sedum aizoon L .(FSAL) on circadian rhythm disorders in mice. The results after feeding FSAL for 4 weeks showed that FSAL improved the imbalance of intestinal microbial structure caused by circadian rhythm disorders, thus regulating alanine, aspartate and glutamate metabolism, histidine metabolism and other metabolites and substances related to metabolism. The analysis of liver transcriptome showed that FSAL significantly regulated retinol metabolism, peroxisome proliferator-activated receptors(PPARs) pathway, and hepatitis C pathway in mouse liver. Therefore, this study obtained the conclusion that FSAL can regulate intestinal flora, metabolites and liver genes to improve circadian rhythm disorders and maintain mouse health.
基金This research was kindly supported through funding from National Natural Science Foundation of China(31772030)Student Research and Innovation Program of Ningbo University(2021SRIP3607).
文摘Botrytis cinerea is a plant pathogen,which affects the quality of fruits.However,chemical antifungal agents are extremely harmful to the environment,hence it’s critical to create a natural plant-derived antifungal agent to replace chemical antifungal agents.The study explored the antifungal mechanisms of flavonoids from Sedum aizoon L.(FSAL)against B.cinerea.In the study,cell membrane served as an important breakthrough point.The minimum inhibitory concentration(MIC)of FSAL against B.cinerea was investigated.The propidium iodide(PI)staining observation of B.cinerea was explored.The activities of crucial enzymes involved in the metabolism were studied as well as the phospholipid and fatty acid changes.The expression of genes related to the membrane lipid metabolism was also measured.The results showed that FSAL had a certain inhibitory effect on B.cinerea and the MIC was 1.500 mg/mL.FSAL disrupted the cell membrane of B.cinerea,which decreased the contents of glutathione and proline at a low level as well as the membrane phospholipids.Compared with the control group,the activities of crucial enzymes were decreased,and the expression of key genes was reduced.It indicated that FSAL inhibited B.cinerea by disrupting its cell membrane,offering the possibility of a natural plant-derived antifungal agent for the preservation of fruits.
