某些本土加工方法对十种不同野生型豆科谷物生物活性化合物的影响。
Effect of certain indigenous processing methods on the bioactive compounds of ten different wild type legume grains.
机构信息
Institute for Biological Chemistry and Nutrition (140), University of Hohenheim, 70593 Stuttgart, Germany.
出版信息
J Food Sci Technol. 2012 Dec;49(6):673-84. doi: 10.1007/s13197-010-0223-x. Epub 2011 Jan 18.
In recent years, research efforts are under-way on the possibilities of utilization of natural source of bioactive compounds for the dietary management of certain chronic diseases such as diabetes, obesity, cardiovascular diseases, cancer etc. In this connection, seed materials of promising wild type under-utilized food legume grains such as Acacia nilotica (L.) Willd. Ex Delile, Bauhinia purpurea L., Canavalia ensiformis (L.) DC., Cassia hirsuta L., Caesalpinia bonducella F., Erythrina indica L., Mucuna gigantea (Willd.) DC., Pongamia pinnata (L.) Pierre, Sebania sesban (L.) Merr. and Xylia xylocarpa Roxb. Taub., collected from South India, were investigated for certain bioactive compounds. All the samples were found to constitute a viable source of total free phenolics (3.12-6.69 g/100 g DM), tannins (1.10-4.41 g/100 g DM), L-Dopa (1.34-5.45 g/100 g DM) and phytic acid (0.98-3.14 g/100 g DM). In general, the seed materials of X. xylocarpa recorded high levels of total free phenolics and tannins, whereas the maximum levels of L-Dopa and phytic acid were noticed in M. gigantea and S. sesban, respectively. Further, presently investigated all the bioactive compounds were drastically reduced during soaking in tamarind solution + cooking as well as soaking in alkaline solution + cooking, and thus these treatments were considered to be more aggressive practices. Open-pan roasting also demonstrated a significant reduction of total free phenolics, tannins and moderate loss of L-Dopa and phytic acid. Alternatively, sprouting + oil-frying showed significant level of increase of total free phenolics (9-27%) and tannins (12-28%), but diminishing effect on phytic acid and L-Dopa. Hence, among the presently employed treatments, sprouting + oil-frying could be recommended as a suitable treatment for the versatile utilization of these wild under-utilized legume grains for the dietary management of certain chronic diseases.
近年来,人们致力于研究从天然生物活性化合物中获取可能的资源,以用于饮食管理某些慢性疾病,如糖尿病、肥胖症、心血管疾病、癌症等。在这方面,对有前途的野生未充分利用的食用豆类种子材料进行了研究,如金合欢(Acacia nilotica)(L.)Willd. Ex Delile、紫荆(Bauhinia purpurea)L.、剑叶猪屎豆(Canavalia ensiformis)(L.)DC.、猪毛菜(Cassia hirsuta)L.、巴豆(Caesalpinia bonducella)F.、印度紫檀(Erythrina indica)L.、大果油麻藤(Mucuna gigantea)(Willd.)DC.、印茄(Pongamia pinnata)(L.)Pierre、田菁(Sebania sesban)(L.)Merr.和非洲铁木(Xylia xylocarpa)Roxb. Taub.,这些种子材料来自印度南部。研究了所有这些样本的某些生物活性化合物。所有样本均被证实是总游离酚(3.12-6.69 g/100 g DM)、单宁(1.10-4.41 g/100 g DM)、L-多巴(1.34-5.45 g/100 g DM)和植酸(0.98-3.14 g/100 g DM)的有效来源。一般来说,X. xylocarpa 的种子材料中总游离酚和单宁含量较高,而 M. gigantea 中的 L-多巴和 S. sesban 中的植酸含量最高。此外,目前研究的所有生物活性化合物在罗望子溶液+烹饪浸泡以及在碱性溶液+烹饪浸泡过程中都会大量减少,因此这些处理被认为是更具侵略性的方法。平底煎锅烘烤也显著降低了总游离酚、单宁和中等水平的 L-多巴和植酸。相反,发芽+油炒显示出总游离酚(9-27%)和单宁(12-28%)的显著水平增加,但对植酸和 L-多巴有减弱作用。因此,在所采用的处理方法中,发芽+油炒可作为一种合适的处理方法,用于饮食管理某些慢性疾病,以实现这些野生未充分利用的豆类谷物的多功能利用。
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