The variation of nutrient and anti-nutrient compounds in commercial mungbean cultivars(Chinat 72,MS-1,Chinat 80,and L3-8)during seven periods of germination and sprouting was determined.The seeds were selected randoml...The variation of nutrient and anti-nutrient compounds in commercial mungbean cultivars(Chinat 72,MS-1,Chinat 80,and L3-8)during seven periods of germination and sprouting was determined.The seeds were selected randomly at 6 h of soaking(1^(st)stage),23 h(2^(nd)stage),47 h(3^(rd)stage),71 h(4^(th)stage),77 h(5^(th)stage)of sprouting,and 12 h,and 24 h of sunshine exposing(6th and 7th stage,respectively).It was found that nutrition compositions(including protein content,crude fiber content,vitamin C content,total minerals,and HCL-extractability of minerals)of all cultivars significantly increased with germination and sprouting.At the last stage,the total phenol was the highest amount which was not significantly different from all cultivars.The total antiradical capacity(%,DPPH inhibition)increased up to the maximum value in the last two stages of sprouting.The results showed that the phytic acid,the anti-nutrient component decreased with the consequence of germination,and reached the untraceable value at the last stage.In addition,the highest amount of chlorophyll(7.15-8.99 mg/100 g)was found in Chinat 72 and MS-1 cultivars at the last stage of sprouting,comparing to Chinat 80 and L3-8 cultivars.It is therefore recommended to consume high chlorophyll mungbean sprout with the benefits of high nutrient constituents and low price purchase comparing to other green vegetables.展开更多
以3-吲哚乙酸(IAA)为模板分子、丙烯酰胺(AA)为功能单体,采用沉淀聚合法制备了IAA印迹聚合物微粒,研究了致孔剂乙腈的用量及IAA的加入量对印迹聚合物结合性能的影响,采用色谱法对其进行评价。结果表明,当乙腈为37.5 m L,IAA为2 mmo...以3-吲哚乙酸(IAA)为模板分子、丙烯酰胺(AA)为功能单体,采用沉淀聚合法制备了IAA印迹聚合物微粒,研究了致孔剂乙腈的用量及IAA的加入量对印迹聚合物结合性能的影响,采用色谱法对其进行评价。结果表明,当乙腈为37.5 m L,IAA为2 mmol(与AA物质的量比为1∶1)时,制得印迹聚合物P7对IAA的亲和力最大(k=4.24),印迹因子(IF)为14.1,其对IAA展示了最显著的特异识别能力。将P7作为固相萃取柱的填料,研究了分子印迹固相萃取IAA的方法,测得绿豆芽样品的加标回收率为90.6%~92.6%。结果表明,以AA为功能单体沉淀聚合法制备的IAA印迹聚合物颗粒适合作为固相萃取柱填料,可实现实际样品中IAA的选择性分离净化。该文提出的采用适当增大模板分子加入量的方法是制备高亲和力与高选择性印迹聚合物的一条新途径。展开更多
文摘The variation of nutrient and anti-nutrient compounds in commercial mungbean cultivars(Chinat 72,MS-1,Chinat 80,and L3-8)during seven periods of germination and sprouting was determined.The seeds were selected randomly at 6 h of soaking(1^(st)stage),23 h(2^(nd)stage),47 h(3^(rd)stage),71 h(4^(th)stage),77 h(5^(th)stage)of sprouting,and 12 h,and 24 h of sunshine exposing(6th and 7th stage,respectively).It was found that nutrition compositions(including protein content,crude fiber content,vitamin C content,total minerals,and HCL-extractability of minerals)of all cultivars significantly increased with germination and sprouting.At the last stage,the total phenol was the highest amount which was not significantly different from all cultivars.The total antiradical capacity(%,DPPH inhibition)increased up to the maximum value in the last two stages of sprouting.The results showed that the phytic acid,the anti-nutrient component decreased with the consequence of germination,and reached the untraceable value at the last stage.In addition,the highest amount of chlorophyll(7.15-8.99 mg/100 g)was found in Chinat 72 and MS-1 cultivars at the last stage of sprouting,comparing to Chinat 80 and L3-8 cultivars.It is therefore recommended to consume high chlorophyll mungbean sprout with the benefits of high nutrient constituents and low price purchase comparing to other green vegetables.
文摘以3-吲哚乙酸(IAA)为模板分子、丙烯酰胺(AA)为功能单体,采用沉淀聚合法制备了IAA印迹聚合物微粒,研究了致孔剂乙腈的用量及IAA的加入量对印迹聚合物结合性能的影响,采用色谱法对其进行评价。结果表明,当乙腈为37.5 m L,IAA为2 mmol(与AA物质的量比为1∶1)时,制得印迹聚合物P7对IAA的亲和力最大(k=4.24),印迹因子(IF)为14.1,其对IAA展示了最显著的特异识别能力。将P7作为固相萃取柱的填料,研究了分子印迹固相萃取IAA的方法,测得绿豆芽样品的加标回收率为90.6%~92.6%。结果表明,以AA为功能单体沉淀聚合法制备的IAA印迹聚合物颗粒适合作为固相萃取柱填料,可实现实际样品中IAA的选择性分离净化。该文提出的采用适当增大模板分子加入量的方法是制备高亲和力与高选择性印迹聚合物的一条新途径。