白木通籽分离蛋白的理化与功能性质研究
详细信息Physicochemical and functional properties of protein isolate extracted from Akebia trifoliata var. australis seed
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摘要: 以白木通籽为原料,采用碱提酸沉法,制备白木通籽分离蛋白(API),并对其理化性质与功能性质进行了分析。结果表明:白木通籽分离蛋白含17种氨基酸,其中谷氨酸和天门冬氨酸的含量相对较高,有贮藏蛋白的共性。苏氨酸为白木通籽分离蛋白的第一限制性氨基酸。通过SDS-PAGE分析,白木通籽分离蛋白的亚基分子量范围为25~35ku。圆二色性光谱分析表明,白木通籽分离蛋白的二级结构主要由β-折叠和无规则卷曲组成,含量分别为31.2%和36.6%。白木通籽分离蛋白的等电点在pH4~5之间,在此pH范围内,蛋白的溶解性和起泡能力均最低。Abstract: Akebia trifoliata var. australis seed protein isolate (API) was prepared using the methods of alkali extraction and acid precipitation. The physicochemical and functional properties of API were characterized. The results showed that API contained 17 kinds of amino acids. Glutamic acid and aspartic acid were the most abundant amino acids in API, consistent with most storage proteins. With respect to nutritional parameter, threonine was found as the first limiting amino acids for API. From the analysis of SDS-PAGE, molecular weights of API were from 25. 0 ~ 35. 0ku. Accounting for 31. 2% and 36. 6%. β-strand and random coil were found to be the major secondary structures in API. The isoelectric point of API was between 4 and 5. Protein solubility and the foaming capacity were minimal at that pH values.
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[1] 马双成, 陈德昌, 赵淑杰.蓣知子的化学成分研究I.白木通种子中的3位单糖链皂甙化合物[J].中草药, 1994, 25 (4) :171-174. [2] 刘占朝.三叶木通研究进展综述[J].河南林业科技, 2005, 25 (1) :20-22. [3] 白梅荣, 张冰, 刘小青, 等.三叶、五叶木通提取物药效及对药酶影响的比较研究[J].中华中医药学刊, 2008, 26 (4) :732-735. [4] 蒋岩, 杜研学, 熊华, 等.白木通籽油的理化性质与热氧化稳定性[J].食品科学, 2011, 32 (15) :34-38. [5] 潘敏尧.大米浓缩蛋白的研制及蛋白改性的研究[D].杭州:浙江大学, 2006. [6] RH Alsmeyer, AD Cunningham, M L Happich.Equations predict PER from amino acid analysis[J].Food Technology, 1974 (28) :34-38.
[7] IK Morup, ES Olesen.New method for prediction of protein value from essential amino acid pattern[J].Nutrition Report Kit, 1976 (13) :355-365.
[8] Laemmli U K.Cleavage of saturated proteins during the assembly of the head of bacteriophage T4[J].Nature, 1970, 227:680-685.
[9] F Massimo, Marcone, Y Kakuda, et al.Salt-soluble seed globulins of dicotyledonous and monocotyledonous plants II.Structural characterization[J].Food Chemistry, 1998, 63 (2) :265-274.
[10] Lowry O H, Rosembroug H J, Lewis A, et al.Protein measurement with the Folin Phenol reagent[J].Journal of Biological Chemistry, 1951, 193 (1) :265-275.
[11] Haskard C A, Li-Chan E C Y.Hydrophobicity of bovine serum albumin and ovalbumin using uncharged (PRODAN) and anionic (ANS-) fluorescent probes[J].Journal of Agricultural and Food Chemistry, 1998, 46 (7) :2671-2677.
[12] Sze-Tao K W C, Sathe S K.Functional properties and in vitro digestibility of almond (Prunus dulcis L.) protein isolate[J].Food Chemistry, 2000, 69 (2) :153-160.
[13] Eknayake S, Jansz E R, Nair B M.Proximate composition, mineral and amino acid content of mature Canavalia guadiata seeds[J].Food Chemistry, 1999, 66 (1) :115-119.
[14] Tang C H, Wang X Y, Liu F, et al.Physicochemical and conformational properties of buckwheat protein isolates:influence of polyphenol removal with cold organic solvents from buckwheat seed flours[J].Journal of Agricultural and Food Chemistry, 2009, 57 (22) :10740-10748.
[15] Chavan U D, McKenzie D B, Shahidi F.Functional properties of protein isolates from beach pea (Lathyrus maritimus L.) [J].Food Chemistry, 2001, 74 (2) :177-178.
[16] Hojilla-Evangelista M P, Evangelista R L.Functional properties of protein from Lesquerella fendleri seed and press cake from oil processing[J].Industrial Crops and Products, 2009, 29 (2) :466-472.
[17] Mwanjala A M, Kharidah M, Jamilah B, et al.Influence of altered solvent environment on the functionality of pigeonpea (Cajanus cajan) and cowpea (Vigna unguiculata) protein isolates[J].Food Chemistry, 2000, 71 (2) :157-165.
[18] DiaelDin M R, Elfadil E B, Abdullahi H E.Fractionation, solubility and functional properties of cowpea (Vigna unguiculata) proteins as affected by pH and/or salt concentration[J].Food Chemistry, 2004, 84 (2) :207-221.
[19] Chau C F, Cheung K, Wang Y S.Functional properties of protein isolates from three indigenous legume seeds[J].Journal of Agricultural and Food Chemistry, 1997, 45 (7) :2500-2503.
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