Viola A. Nwachukwu Nicholas-Okpara , Stanley Chidi Udedi , Francis Chukwuemeka Ezeonu , Francis Oluwole Shode , Gloria Nwakaegho Elemo , Maryam Olanshile Adegboyega
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Previous research has reported stigmasterol as a potent hypolipidemic and anti-obesity agent. Based on the comparison of its physical and spectroscopic features with existing literature, our work describes the method of isolation and NMR structure elucidation of stigmasterol obtained from <em>E. coccinea</em> leaves. While stigmasterol has previously been isolated from <em>E. coccinea</em> leaves using hexane and ethyl acetate, our research validates its isolation using dichloromethane as an alternative method. This ensures reproducibility and offers methodological flexibility for future research. 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引用次数: 0
摘要
天然产物研究对于发现新的药物先导具有巨大的潜力。已经确定,天然植物产品用于治疗和管理各种人类疾病。Emilia coccinea (Sims) G. Don (Emilia属)的叶子长期以来一直被用于非洲传统医学,因为它们具有抗胆固醇、心血管和伤口愈合的功效。与已有文献一致,本研究通过1D NMR (1H NMR和13C NMR)和FT-IR分析,证实了豆甾醇是coccinea叶片中的主要成分。以前的研究已经报道了名豆甾醇是一种有效的降血脂和抗肥胖剂。在比较其物理和光谱特征与现有文献的基础上,本文描述了从球菌叶中提取的豆甾醇的分离方法和核磁共振结构解析。虽然以前使用己烷和乙酸乙酯从球菌叶中分离出豆甾醇,但我们的研究验证了使用二氯甲烷作为替代方法分离其。这确保了可重复性,并为未来的研究提供了方法上的灵活性。最后,我们确认,球菌属Emilia coccinea可以作为一种新的来源,一种有效的治疗药物,并可能成为研究和开发各种疾病的营养保健品的有用的先导。
NMR characterization of stigmasterol in Emilia coccinea (Sims) G. Don leaves dichloromethane fraction
Natural product research holds great potential for the discovery of new drug leads. It has been established that natural plant products are used to cure and manage various human diseases. The leaves of Emilia coccinea (Sims) G. Don (genus Emilia) have long been used in African Traditional Medicine for their anti-cholesterolemic, cardiovascular, and wound-healing benefits. Consistent with existing literature, this study confirms the presence of stigmasterol as a major component in E. coccinea leaves through 1D NMR (1H NMR and 13C NMR) and FT-IR analysis of its dichloromethane extract. Previous research has reported stigmasterol as a potent hypolipidemic and anti-obesity agent. Based on the comparison of its physical and spectroscopic features with existing literature, our work describes the method of isolation and NMR structure elucidation of stigmasterol obtained from E. coccinea leaves. While stigmasterol has previously been isolated from E. coccinea leaves using hexane and ethyl acetate, our research validates its isolation using dichloromethane as an alternative method. This ensures reproducibility and offers methodological flexibility for future research. Finally, we affirm that Emilia coccinea can serve as a new source of stigmasterol, a potent therapeutic agent, and could be a useful lead in the research and development of nutraceuticals for various diseases.
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