红树植物乙醇提取物的化学筛选及抗癌活性研究

Sharmin Sultana, R. Biswas, K.M. Didarul Islam
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摘要

背景:红树林生态系统被认为包含了广泛的次生代谢物,这些次生代谢物在生物化学上是独特的,从而产生了一系列具有独特生物活性的天然化合物。它们具有活性代谢产物,具有来自各种化学类的新化学结构。目的:对4种主要红树植物(黄颡鱼、金顶草、金丝桃、金丝桃)的植物化学筛选和细胞毒性进行研究。方法:本实验研究于2016年在孟加拉国库尔纳大学生物化学与分子生物学实验室进行。第一次对所选植物进行了植物化学筛选。然后,利用不同植物部位(叶、皮和茎)的极性溶剂(乙醇)提取物施加50%致死浓度(LC50),采用盐水对虾致死(BSL)生物测定法测定其生物活性作为初步细胞毒活性。然后,以大肠杆菌ATCC 8739、伤寒沙门氏菌ATCC 6539、副伤寒沙门氏菌ATCC 9150、金黄色葡萄球菌ATCC 25923为标准菌,仅对沉香叶和树皮乙醇提取物进行reazurin细胞活力测定。结果:实验结果表明,沉香叶乙醇提取物和树皮乙醇提取物的LC50值显著强,而其他植物的细胞毒性分别为中度和可忽略,如金盏花、金盏花、金盏花。实验结果表明,沉香叶和树皮乙醇提取物的IC50值显著(P≤0.05)强。结论:本研究采用的筛选方法是初步的,需要进一步验证和揭示其在这些植物,特别是黄芪中的生物活性。
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The Phytochemical Screening and Anti-cancer activity of Ethanolic Extracts of Selected Mangrove Plants
Background: Mangrove ecosystems have been recognized to include a wide range of secondary metabolites, which are biochemically distinct, resulting in a diverse range of natural compounds with unique bioactivity. They have active metabolites with new chemical structures from a variety of chemical classes. Objectives: This study was undertaken to evaluate the phytochemical screening and cytotoxicity of four major mangrove plants (Excoecaria agallocha L., Acrostichum aureum L., Aegiceras corniculatum L., and Avicennia officinalis L.). Methods: This experimental study was held in the Biochemistry and Molecular Biology Laboratory of Khulna University, Bangladesh, in 2016. At the first phytochemical screening of the selected plants was observed. Then, the bioactivity as preliminary cytotoxic activity was performed using brine shrimp lethality (BSL) bioassay where a significant 50% Lethal Concentration (LC50) was exerted using polar solvent (ethanol) extract of different plant parts (leaf, bark, and stem). Then, Resazurin Cell Viability Assay was performed only for ethanolic leaf and bark extracts of E. agallocha using four standard bacteria (Escherichia coli ATCC 8739, Salmonella typhi ATCC 6539, Salmonella paratyphi ATCC 9150, and Staphylococcus aureus ATCC 25923). Results: The experimental findings showed significantly strong LC50 by ethanolic leaf and bark extracts of E. agallocha and other plants, like A. corniculatum, A. aureum, and A. officinalis showed moderate and negligible cytotoxicity, respectively. Then, the experimental findings showed significantly (P≤0.05) strong IC50 by ethanolic leaf and bark extracts of E. agallocha. Conclusion: The screens employed in this present study are preliminary and advanced assays are needed to verify and reveal further this bioactivity present in those plants, particularly E. agallocha.
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