衍生化法测定水果中还原型谷胱甘肽(GSH)和总巯基含量
详细信息Reduced glutathione (GSH) and total thiol detection in some fruits by derivatizing methods
-
摘要: 用衍生化试剂5,5-二硫硝基苯甲酸(DTNB)对巯基化合物的衍生化反应和邻苯二甲醛(OPA)与GSH的荧光衍生化反应,分别采用UV-vis分光光度法和荧光光度法测定了猕猴桃、大枣、酸浆中总巯基含量和GSH的含量。被测样品中GSH和总巯基相对含量分布有较大的差异,其中猕猴桃和大枣中含有相对较高的GSH浓度分布,分别达0.7092、0.8374mol/g,酸浆中含有较高的总巯基含量分布,达1.4173mol/g。本测定方法的回收率达95.38%101.9%,满足测定准确度的要求,总巯基含量和GSH含量测定最低检测限分别为9.6×10-7、2.69×10-7mol/L。
-
关键词:
- 谷胱甘肽; /
- 巯基化合物; /
- 衍生化; /
- 5, 5-二硫双-2-硝基苯甲酸; /
- 邻苯二甲醛;
Abstract: Total thiol and reduced glutathione in Kiwi, Jujube and Fruit Physalis had been determined by UV-vis spectrometry and fluorescent spectrometry using 5, 5-dithio-bis-nitrobenzoic acid (DTNB) and O-phthaldehde (OPA) as derivatizing agents. Relative amount between total thiol and GSH varies significantly, among which kiwi and jujube contained relative large amount of GSH with the content of 0.7092, 0.8374mol/g respectively, while fruit physalis contained higher amount of total thiol with the centent of 1.4173mol/g. The determination of total thiol and GSH proceeded with the accurate and sensitive method with the recovery range of 95.38%~101.9% , and lowest detection limits reached to 9.6×10 -7 , 2.69×10 -7 mol/L respectively. -
[1] SAMIR D, SHALINI J, HARIOM Y.Exotic fruits as therapic complements for diabetes, obesity and metabolic syndrome[J].Food Research International, 2011, 44:1856-1865.
[2] 高海生, 肖月娟, 刘秀凤, 等.毛樱桃果实营养成分分析[J].食品科学, 2002, 23 (6) :110-112. [3] 张奇志, 邓欢英, 林丹琼.广东杨梅果的主要营养成分分析[J].食品研究与开发, 2012, 33 (3) :181-183. [4] 刘冬英, 谢剑锋, 方少瑛, 等.榴莲的营养成分分析[J].广东微量元素学, 2004, 11 (10) :57-59. [5] 张美莉, 邓秋才, 杨海霞, 等.内蒙古欧李果肉和果仁中营养成分分析[J].氨基酸和生物资源, 2007, 29 (4) :18-20. [6] 徐静.水果抗氧化活性与成分分析以及对衰老机体抗氧化功能的干预作用[D].北京:中国人民解放军军事医学科学院, 2006. [7] 麦维军, 张明永.高等植物体内的谷胱甘肽[J].生物学通报, 2005, 40 (6) :4-5. [8] 翟军鹇, 夏蓓蓓, 田婷婷, 等.植物金属硫蛋白的研究进展[J].南方农业, 2010 (1) :87-89. [9] VERENA L, ANDREAS W, AN Z G, et al.Exploiting plants for glutathione (GSH) production:Uncoupling GSH synthesis from cellular controls results in unprecedented GSH accumulation[J].Plant Biotechnology Journal, 2010 (8) :1-14.
[10] SANTIAGO I T, ANNA F, OLGA J, et al.Detection and Quantification of Unbound Phytochelatin in Plant Extracts of Brassica napus Grown with Different Levels of Mercury[J].Plant Physiology, 2006 (10) :742-749.
[11] PETERSON A G, OLIVER D J.Leaf-targeted phytochelatin synthase in Arabidopsis thaliana[J].Plant Physiology and Biochemistry, 2006, 44:885-892.
[12] MINE E I, EMINE S, GUNGOR K.Age ralated changes in the glutathione redox system[J].Cell Biochemistry and Function, 2002, 20:61-66.
[13] 陈震阳, 潘立群, 谭淑珍, 等.血清中总巯基与非蛋白巯基含量分别测定研究[J].卫生毒理学杂志, 1990, 4 (4) :268-269. [14] 夏一明.总谷胱甘肽的测定方法[J].营养学报, 1990, 12 (1) :18-22. [15] 李丽娜, 李军生, 阎柳娟.分光光度法测定食品蛋白质中二硫键的含量[J].食品科学, 2008, 29 (8) :562-564. [16] 范崇东, 王淼, 卫功元, 等.谷胱甘肽测定方法研究进展[J].生物技术, 2004, 14 (1) :1-5. [17] 张光兴.DTNB与蛋白质巯基的相互作用[J].河北大学学报, 1983, 2:68-72. [18] 黄彦生, 智艳芳, 孔沈燕, 等.用荧光分光光度法测量冠心病患者血浆谷胱甘肽[J].光谱学与光谱分析, 2006, 26 (5) :936-940.
计量
- 文章访问数:
- HTML全文浏览量:
- PDF下载量:
下载:
