ISOLATION OF FLAVONOID FROM ANDONG LEAVES (Cordyline fruticosa (L.) A. Chev.) AND ITS ACTIVITY AS COMPLEXOR OF Fe2+

Herlinda Djohan, Ari Widiyantoro, A. Shofiyani
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引用次数: 1

Abstract

Flavonoid is one of the phenolic compounds that can complex metals. One of the native plants of Indonesia which has the potential as a metal complexor is the andong plant (Cordyline fruticosa (L.) A.Chev). The isolation process to obtain pure compound are extraction, fractionation, and separation by chromatography. Chromatography method using vacuum liquid chromatography (VLC), gravity column chromatography (GCC) and preparative thin layer chromatography (TLC). This research obtained relatively pure isolate F2.8. The IR (KBr) data on wave numbers of isolate F2.8 were 3430; 2925-2855; 1749; 1609-1512; 1171 and 1100 cm-1.The result of the spectrum 1H-NMR showed flavonoid compound has similar typical spectrum of apigenin compound which showed chemical shift (δH ppm) : 6.85 (1H, s, H-3); 6.29 (1H, s H-6); 6.57 (1H, H-8); 7.03 (2H, d, J = 11.96 Hz, H-3’, H-5’); 8.03 (2H, d, J = 11.72 Hz, H-2’, H-6’). The UV-Vis (CH3OH) spectrum data of isolate F2.8 after the addition of Fe2+ showed a shift at λmax towards a greater direction with a batochromic shift which was caused a decrease in absorbance after the addition of iron (Fe2+) 20 ppm namely: 290 nm; 305 nm with respectively absorbances of 1.62 A; 0.42 A. Based on these data, isolate F2.8 is apigenin which is capable of complexing Fe2+.
冬虫夏草(Cordyline fruticosa (L.))中黄酮类化合物的分离答:Chev)。及其作为Fe2+络合物的活性
类黄酮是一种能使金属络合的酚类化合物。印度尼西亚有潜力作为金属络合物的本土植物之一是东植物(Cordyline fruticosa (L.))。A.Chev)。提取、分馏、色谱分离是获得纯化合物的分离工艺。色谱方法采用真空液相色谱法(VLC)、重力柱色谱法(GCC)和制备薄层色谱法(TLC)。本研究获得了比较纯的F2.8分离物。分离物F2.8的IR (KBr)波数为3430;2925 - 2855;1749;1609 - 1512;1171和1100cm -1。1H- nmr结果表明,黄酮类化合物具有与芹菜素化合物相似的典型光谱,其化学位移(δH ppm)为6.85 (1H, s, H-3);6.29 (1H, s H-6);6.57 (1h, h-8);7.03 (2H, d, J = 11.96 Hz, H-3 ', H-5 ');8.03 (2H, d, J = 11.72 Hz, H-2 ', H-6 ')。Fe2+加入后,分离物F2.8的UV-Vis (CH3OH)光谱数据显示,在λmax处有较大方向的偏移,这是由于铁(Fe2+)添加20 ppm (290 nm)后吸光度下降所致;305 nm,吸光度分别为1.62 A;0.42。根据这些数据,分离物F2.8是能够络合Fe2+的芹菜素。
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