Institute for Animal Production in the Tropics and Subtropics, 480b, University of Hohenheim, Stuttgart-70599, Germany.
Fitoterapia. 2012 Apr;83(3):586-92. doi: 10.1016/j.fitote.2012.01.001. Epub 2012 Jan 9.
Jatropha curcas seed oil, which can be utilized for biodiesel production upon transesterification, is also rich in phorbol esters (PEs). In this study, PEs from J. curcas oil (Jatropha factors C₁ and C₂ (purified to homogeneity), Jatropha factors C₃ and (C₄+C₅) (obtained as mixtures) and PE-rich extract (containing all the above stated Jatropha factors) were investigated. The concentrations of Jatropha PEs were expressed equivalent to Jatropha factor C₁. In the snail (Physa fontinalis) bioassay, the order of potency (EC₅₀, μg/L) was: PE-rich extract<factor C₃ mixture<factor C₂<factor C₁<factor (C₄+C₅). In the Artemia salina bioassay, the order of potency (EC₅₀, mg/L) was: factor C₂<factor C₃ mixture<factor C₁<factor (C₄+C₅) mixture. In addition, Jatropha PEs exhibited platelet aggregation (ED₅₀, μM, factor C₂<factor C₃ mixture<factor C₁<factor (C₄+C₅) mixture. The stability of a PE-rich extract was evaluated and found to be low at room temperature but favourable in ethanol over a range of temperatures. By integrating the isolation methodology developed in this study in the Jatropha biodiesel industry, PEs could be obtained as value-added co-products.
麻疯树籽油可通过酯交换转化为生物柴油,同时也富含巴豆醇酯(PEs)。本研究以麻疯树籽油为原料(经分离后得到的麻疯树因子 C₁ 和 C₂(高度纯)、麻疯树因子 C₃ 和(C₄+C₅)(混合物)和富含 PEs 的提取物(包含上述所有的麻疯树因子)对 PEs 进行了研究。PEs 的浓度用等效于麻疯树因子 C₁ 的浓度来表示。在蜗牛(Physa fontinalis)生物测定中,活性顺序(EC₅₀,μg/L)为:富含 PEs 的提取物<因子 C₃ 混合物<因子 C₂<因子 C₁<因子(C₄+C₅)。在卤虫(Artemia salina)生物测定中,活性顺序(EC₅₀,mg/L)为:因子 C₂<因子 C₃ 混合物<因子 C₁<因子(C₄+C₅)混合物。此外,麻疯树 PEs 还表现出血小板聚集活性(ED₅₀,μM,因子 C₂<因子 C₃ 混合物<因子 C₁<因子(C₄+C₅)混合物。对富含 PEs 的提取物的稳定性进行了评估,发现其在室温下稳定性较低,但在乙醇中于一定温度范围内较为稳定。通过将本研究中开发的分离方法整合到麻疯树生物柴油工业中,可以获得富含 PEs 的副产物。
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