Department of Functional Crop, National Institute of Crop Science (NICS), Rural Development Administration, Miryang 627-803, Republic of Korea.
Food Chem. 2014 Mar 1;146:270-7. doi: 10.1016/j.foodchem.2013.09.051. Epub 2013 Sep 18.
The present work was reported on investigation of saponin profiles in nine different legume seeds, including soybean, adzuki bean, cowpea, common bean, scarlet runner bean, lentil, chick pea, hyacinth bean, and broad bean using ultra performance liquid chromatography with photodiode array detector and electrospray ionisation/mass spectrometry (UPLC-PDA-ESI/MS) technique. A total of twenty saponins were characterised under rapid and simple conditions within 15min by the 80% methanol extracts of all species. Their chemical structures were elucidated as soyasaponin Ab (1), soyasaponin Ba (2), soyasaponin Bb (3), soyasaponin Bc (4), soyasaponin Bd (5), soyasaponin αg (6), soyasaponin βg (7), soyasaponin βa (8), soyasaponin γg (9), soyasaponin γa (10), azukisaponin VI (11), azukisaponin IV (12), azukisaponin II (13), AzII (14), AzIV (15), lablaboside E (16), lablaboside F (17), lablaboside D (18), chikusetusaponin IVa (19), and lablab saponin I (20). The individual and total saponin compositions exhibited remarkable differences in all legume seeds. In particular, soyasaponin βa (8) was detected the predominant composition in soybean, cowpea, and lentil with various concentrations. Interestingly, soybean, adzuki bean, common bean, and scarlet runner bean had high saponin contents, while chick pea and broad bean showed low contents.
本工作报道了采用超高效液相色谱-光电二极管阵列检测-电喷雾离子化/质谱联用(UPLC-PDA-ESI/MS)技术对 9 种不同豆科种子(包括大豆、红豆、豇豆、菜豆、红花菜豆、扁豆、鹰嘴豆、黎豆和蚕豆)中的皂甙进行分析。在 15 分钟内,通过 80%甲醇提取物对所有物种进行快速而简单的条件下,共鉴定出 20 种皂甙。通过它们的化学结构阐明了大豆皂甙 Ab(1)、大豆皂甙 Ba(2)、大豆皂甙 Bb(3)、大豆皂甙 Bc(4)、大豆皂甙 Bd(5)、大豆皂甙 αg(6)、大豆皂甙 βg(7)、大豆皂甙 βa(8)、大豆皂甙 γg(9)、大豆皂甙 γa(10)、azukisaponin VI(11)、azukisaponin IV(12)、azukisaponin II(13)、AzII(14)、AzIV(15)、lablaboside E(16)、lablaboside F(17)、lablaboside D(18)、chikusetusaponin IVa(19)和 lablab saponin I(20)。所有豆科种子的单体和总皂甙组成都表现出显著差异。特别是,大豆、豇豆和扁豆中,大豆皂甙βa(8)为主要成分,且浓度各异。有趣的是,大豆、红豆、菜豆和红花菜豆的皂甙含量较高,而鹰嘴豆和蚕豆的含量较低。
