Mohammad Basyuni, S. Baba, H. Oku, F. Mulia, Y. Bimantara, Sumaiyah, E. Yusraini
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引用次数: 2
摘要
据报道,坎德尔属属于根参科,有两个不同的种:坎德尔和obovata。红树林植物已知产生次生代谢物,主要来源于类异戊二烯(三萜和植物固醇)。香椿叶和根的类异戊二烯成分Druce和K. obovata Sheue, Liu & Yong进行了调查和比较。用气相色谱-火焰离子化检测器(GC-FID)分析了两种植物的三萜和甾醇谱。两种植物在叶和根的组成上都存在差异。在山楂叶中检测到8种类异戊二烯,以三萜中的-amyrin为主。三萜与植物甾醇的比值为73.2%:26.8%。相比之下,植物甾醇在蜡烛根的类异戊二烯比例中占主导地位(91.7%)。结果表明,黄叶莲叶片和根中植物甾醇含量高于三萜,分别为59.6%和97.9%。本研究表明,两种植物中类异戊二烯的组成存在差异。
Difference Triterpenoid and Phytosterol Profile between Kandelia candel and K. obovata
Kandelia, a genus belonging to Rhizophoraceae has been reported to have two distinct species: K. candel and K. obovata. Mangrove plants are known to produce secondary metabolite mostly derived from isoprenoid (triterpenoid and phytosterol). Isoprenoid composition of leaves and roots of K. candel (L.) Druce and K. obovata Sheue, Liu & Yong were investigated and compared. Triterpenoid and phytosterol profile of both species was analyzed using Gas Chromatography with Flame Ionization Detector (GC-FID). Both species displayed difference composition either in the leaves or roots. In the leaves of K. candel, eight isoprenoids detected, with dominating of -amyrin, a member of triterpenoid. The ratio between triterpenoid and phytosterol was 73.2%:26.8%. By contrast, phytosterol dominated the isoprenoid proportional in the roots of K. candel (91.7%). Similar results were found in the K. obovata leaves and roots, a predominated phytosterol over triterpenoid, 59.6%, and 97.9%, respectively. The present work suggested diversity composition of isoprenoid in both Kandelia.
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