[1]张月圆,陈佩瑶,刘露,等.醋制对黑豆蛋白含量及多肽ACE抑制活性的影响[J].大豆科学,2017,36(06):932-937.[doi:10.11861/j.issn.1000-9841.2017.06.0932]
 ZHANG Yue-yuan,CHEN Pei-yao,LIU Lu,et al.Effect of Vinegar Soaking on Black Soybean Protein Fractions Content and Their Corresponding Peptides′ ACE Inhibitory Activity[J].Soybean Science,2017,36(06):932-937.[doi:10.11861/j.issn.1000-9841.2017.06.0932]
点击复制

醋制对黑豆蛋白含量及多肽ACE抑制活性的影响

《大豆科学》[ISSN:1000-9841/CN:23-1227/S] 卷: 第36卷 期数: 2017年06期 页码: 932-937 栏目: 出版日期: 2017-11-20
Title:
Effect of Vinegar Soaking on Black Soybean Protein Fractions Content and Their Corresponding Peptides′ ACE Inhibitory Activity
作者:
张月圆12陈佩瑶12刘露12冀会方12李玲玲12王灵芝1
(1.北京中医药大学 生命科学学院,北京100102; 2.北京中医药大学 中药学院,北京100102)
Author(s):
ZHANG Yue-yuan12 CHEN Pei-yao12 LIU Lu12 JI Hui-fang12 LI Ling-ling12 WANG Ling-zhi1
(1.School of Life Science, Beijing University of Chinese Medicine, Beijing 100102, China; 2.School of Chinese Materia Medica, Beijing University of Chinese Medicine, Beijing 100102, China)
关键词:
黑豆醋浸蛋白质多肽ACE抑制活性
Keywords:
Black soybean Soaking in vinegar Protein Peptides ACE inhibitory activity
DOI:
10.11861/j.issn.1000-9841.2017.06.0932
文献标志码:
A
摘要:
为考察醋制对黑豆蛋白含量及多肽ACE抑制活性的影响,为对黑豆醋浸过程中蛋白组分及含量变化进行分析,并对相应ACE抑制肽活性进行测定。黑豆经醋浸不同时间后,采用顺序抽提法提取清蛋白、球蛋白、醇溶蛋白和谷蛋白,并采用凯氏定氮法及SDS-PAGE电泳进行定量和定性分析;各蛋白组分经胃蛋白酶水解,经超滤(截留分子量3 kD)后收集滤液,获得多肽组分,RP-HPLC法进行ACE抑制活性评价。结果表明:经醋浸14 d后,黑豆总蛋白含量变化幅度小于± 0.5%;清蛋白含量由55.13%(0 d)降低至9.61%(14 d);球蛋白由7.04%(0 d)增加到20.34%(14 d);醇溶蛋白由0.81%(0 d)增加到1.72(14 d);谷蛋白由21.11%(0 d)增加到59.45 %(14 d),含量最高。醋浸处理降低了清蛋白源多肽的ACE抑制活性,但提高了球蛋白、醇溶蛋白及谷蛋白多肽的ACE抑制活性,其中,谷蛋白多肽抑制率由18.18%(0 d)增加至37.58%(14 d),抑制活性升高。醋浸可改变黑豆各蛋白组分的含量和对应多肽的ACE抑制活性,其中,谷蛋白含量及其多肽ACE抑制活性均有增加。研究结果表明可进一步采用分离纯化技术从谷蛋白多肽中获得高活性降压肽。
Abstract:
To analyze the variation total protein content and four protein fractions of black soybean and their corresponding peptides′ ACE inhibitory activity after soaking in vinegar, four protein fractions of albumin, gulbulin, prolamin and glutelin were sequentially extracted and then protein contents and molecular weight distribution were measured by Kjeldah method and Tris-Glycine SDS-PAGE, respectively. These four protein fractions were hydrolyzed by pepsin and the hydrolysate was passed through an ultrafiltration membrane(cutting off molecular weight of 3 kD) to collect the ultrafiltrate. The angiotensin I converting enzyme(ACE) inhibitory activity of the peptides was evaluated by RP-HPLC. The results showed that: The total protein content of black soybean changed less than±0.5% after soaking in vinegar for 14 d, while the content of albumin reduced from 55.13%(0 d) to 9.61%(14 d), globulin, prolamin and glutelin contents increased from 7.04%(0 d) to 20.34%(14 d),0.81%(0 d) to 1.72%(14 d) and 21.11%(0 d) to 59.45 %(14 d), respectively. Vinegar soaking made the ACE inhibitory activity of albumin peptides decreased, while those from gulbulin, prolamin and glutelin increased. Among them, glutelin peptides manifested highest increased inhibitory activity from 18.18%(0 d) to 37.58%(14 d). The protein fraction contents of black soybean and ACE inhibitory activity of corresponding peptides significantly changed after vinegar soaking, among them, glutelin content and its peptide ACE inhibitory activity were increased, suggested that the antihypertensive peptides could be further generated from glutelin peptide by using the technology of separation and purification.

参考文献/References:

[1]徐尔雅.淡豆豉的原料应使用黑大豆[J]. 中药材, 1994, 17(4): 44-46. (Xu E Y. Raw materials of fermented soybean should use black soybean[J]. Traditional Chinese Medicine, 1994, 17(4):44-46. )

[2]吴卫东. 醋制中药初探[J]. 天津中医学院学报, 2001, 20(1): 44, 53. (Wu W D. Preliminary study of vinegar-traditional Chinese medicine[J]. Journal of Tianjin Institute of Traditional Chinese Medicine, 2001, 20(1): 44-53)
[3]韩涛, 李丽萍, 张玉白,等. 醋豆加工过程物质含量的变化及醋豆产品的感官评价[J]. 食品与发酵工业, 2001, 27(6) : 39-44. (Han T, Li L P, Zhang Y B, et al. Changes of total acid and free amino acid contents during pickling of soybean in vinegar and a sensory evaluation of vinegar-pickled soybean[J]. Food and Fermentation Industries, 2001, 27(6): 39-44.)
[4]林健, 林升清. 醋豆红曲胶囊调节血脂作用的实验研究[J]. 大豆加工, 2002(2): 24-25. (Lin J, Lin S Q. Experimental study on effect of red kojic vinegar-bean capsule on adjusting blood lipid[J]. Soybean Processing, 2002(2): 24-25.)
[5]颜士灿. 醋豆降脂胶囊研制及降血脂作用的实验[J]. 福建中医药, 1999, 30(1) : 36-37. (Yan S C. Development of vinegar-bean lipid-lowering capsule and its effect study[J]. Fujian Chinese medicine, 1999, 30(1): 36-37.)
[6]黄梅. 血管紧张素转化酶抑制剂药代动力学特征预测模型的研究[D]. 天津: 天津大学, 2013. (Huang M. Study on pharmacokinetic prediction model of angiotensin-converting enzyme inhibitor[D]. Tianjin: Tianjin University, 2013.)
[7]黄燕, 姚守拙. 亲和色谱法筛选中药中血管紧张素转化酶抑制剂[J]. 中国科学B: 化学, 2009, 39(8): 760-766. (Huang Y, Yao S Z. Screening of angiotensin converting enzyme inhibitors from traditional Chinese medicines by affinity chromatography[J]. Chinese Science B: Chemical, 2009, 39(8): 760-766. )
[8]Ni H, Li L, Guo S S.Isolation and identification of an an-giotensin-I converting enzyme inhibitory peptide from yeast[J]. Current Analytical Chemistry, 2012, 8(1): 180- 185.
[9]Chen C, Chi Y J, Wei X, et al. Influence of degree of hydrolysis on functional properties, antioxidant and ACE inhibitory activities of egg white protein hydrolysate[J]. Food Science and Biotechnology, 2012, 21(1): 27-34.[10]Kohmura M, Nio N, Kubo K, et al. Inhibition of angiotensin-converting enzyme by synthetic peptides of human β-casein[J]. Agricultural and Biological Chemistry, 1989, 53: 2107-2114.
[11]Matsui T, Li C H, Tanaka T, et al. Depressor effect of wheat germ hydrolysate and its novel angiotensin I-converting enzyme inhibitory peptide, Ile-Val-Tyr, and the metabolism in rat and human plasma[J]. Biological & Pharmaceutical Bulletin, 2000, 23: 427-431.
[12]Suh H J, Whang J H. A peptide from corn gluten hydrolysate that is inhibitory toward angiotensin I-Converting enzyme[J]. Biotechnology Letters, 1999, 21: 1055-1058.
[13]Shin Z I, Yu R, Park S A, et al. His-His-Leu, an angiotensin I converting enzyme inhibitory peptide derived from Korean soybean paste, exerts antihypertensive activity in vivo[J]. Journal of Agricultural and Food Chemistry, 2001, 49: 3004-3009.
[14]Yuan J, Liang Y, Cui S, et al. AngiotensinⅠconverting enzyme inhibitory and antioxidant activity of adlay (Coix lacryma-jobi L.var. ma-yuen Stapf) glutelin hydrolysate[J]. Journal of Food Science 2014, 26: 282-288.
[15]谢柳倩, 赵灵灵, 袁建娜, 等. 蜈蚣蛋白水解产物ACE抑制活性的初步研究[J]. 世界科学技术-中医药现代化, 2014, 16(10): 2214-2218. (Xie L Q, Zhao L L, Yuan J N, et al.Primary Study on hydrolysation of centipedes protein and evaluation of Its ACE inhibitory activity[J]. Modernization of Traditional Chinese Medicine and Materia Medica-World Science and Technology, 2014,16(10): 2214-2218.)
[16]Wu J P, Ding X L. Hypotensive and physiological effect of angiotensin converting enzyme inhibitory peptides derived from soy protein on spontaneously hypertensive rats[J]. Agriculture Food Chemistry, 2001(49): 501-506.
[17]Wu J P, Ding X L. Characterization of inhibition and stability of soy protein derived angiotensin I-Converting enzyme inhibitory peptides[J]. Food Research International, 2002(35): 367-375.
[18]Kuba M, Tana C, Tawata S, et al. Production of angiotensin I-Converting enzyme inhibitory peptides from soybean protein with Monascus purpureus acid proteinase[J]. Process Biochemistry, 2005(40): 2191-2196.
[19]刘佳. 大豆蛋白ACE抑制肽的研究[D].无锡: 江南大学, 2008.(Liu J. ACE inhibitory peptides derived from soybean protein[D]. Wuxi: Jiangnan University, 2008. )
[20]常伟. 定向酶解大豆蛋白及其ACE抑制肽研究[D]. 无锡: 江南大学, 2008. (Chang W. Hydrolysis on soybean protein with directed hydrolyzing method and the study on ACE inhibitory peptides[D]. Wuxi: Jiangnan University, 2008.)
[21]Cheung H S, Wang F L, Ondetti M A, et a1.Binding of peptide substrates and inhibitors of angiotensin-converting enzyme[J].The Journal of Biological Chemistry, 1980, 255: 401-407.
[22]李斌, 李玲玲, 冀会方, 等. 薏苡仁谷蛋白源降压肽稳定性研究[J]. 中医药学报, 2015, 43(6) : 53-57. (Li B, Li L L, Ji H F, et al. Stability of antihypertensive peptides derived from adlay glutelin[J]. Acta Chinese Medicine and Pharmacology, 2015, 43(6): 53-57.)
[23]蔡高峰, 黄纪念, 孙强, 等. 大豆降压肽的制备、纯化及活性分析方法研究进展[J]. 中国食物与营养, 2009(10): 25-27. (Cai G F, Huang J N, Sun Q, et al. Research progress of preparation, purification and activity analysis method of soybean antihypertensive peptides[J]. Chinese Food and Nutrition, 2009(10):25-27.)
[24]Siong H T, Rodney J M, Christopher L B, et al. Extraction and characterization of protein fractions from Australian canola meals[J]. Food Research International, 2011, 44: 1075-1082.
[25]国家药典委员会. 中华人民共和国药典[S]. 食品药品监督总局, 2015. (National pharmacopoeia committee.Pharmacopoeia of the People′s Republic of China[S]. Food and Drug Administration, 2015.)
[26]李建武. 生物化学实验原理和方法[M]. 北京:北京大学出版社, 2004; 216-223. (Li J W. Principle and method of biochemistry experiment[M]. Beijing: Peking University Press, 2004, 216-223.)
[27]Lowry O H, Rosebrough N J, Farr A L, et al. Protein measurement with the Folin phenol reagent[J]. The Journal of Biological Chemistry, 1951,193:265-275.
[28]刘恩岐, 李华, 巫永华, 等. 黑豆肽的抗氧化活性与缓解体力疲劳作用[J]. 食品科学, 2013, 34(11) : 273-277. (Liu E Q, Li H, Wu Y H, et al. Antioxidant capacity and fatigue-relieving function of black soybean peptides[J]. Food Science, 2013, 34(11): 273-277.)
[29]王璇. 黑豆肽的制备及抗氧化活性研究[D]. 郑州: 河南工业大学, 2012. (Wang X. Study on the preparation and antioxidant activity of black-soybean peptides[D]. Zhengzhou: Henan University of Technology, 2012.)
[30]刘恩岐, 李华, 巫永华. 降胆固醇黑豆肽的分离纯化与结构鉴定[J]. 食品科学, 2013(19): 128-132. (Liu E Q, Li H, Wu Y H, et al. Isolation and identification of hypocholesterolemic peptide derived from black soybean protein[J]. Food Science, 2013(19): 128-132.)
[31]王菲, 王常青, 樊迎, 等. 不同处理条件小黑豆乳清蛋白的抗肿瘤作用[J]. 食品科学, 2013, 34(3): 267-270. (Wang F, Wang C Q, Fan Y, et al. Anti-tumor activity of whey protein from small black soybean subjected to treatment at different temperatures[J]. Food Science, 2013, 34(3): 267-270.)
[32]Hong Y X, Cai X X, Shao B, et al. Isolation of a thermostable trypsin inhibitor with exploitable potential[J]. European Food Research and Technology, 2013(237): 457-465.?
[33]田田. 黑豆多肽的制备及体外醒酒活性的研究[D]. 长春: 长春工业大学, 2014. (Tian T. Preparation and anti-alcoholism activity in vitro of black bean polypeptide[D]. Changchun: Changchun University of Technology, 2014.)
[34]陈芬, 李莉, 陈鸣丽, 等.醋豆与大豆脂肪酸含量的比较及营养学意义[J]. 生物技术, 2008, 18(1): 73-75.(Chen F, Li L, Chen M L, et al. Comparison of fatty acids(FA) in soybean after treating with vinegar and it′s signification[J]. Biotechnology, 2008, 18(1): 73-75.)
[35]陈芬, 徐国海, 万国华, 等.大豆醋浸后蛋白质和氨基酸含量的变化[J]. 孝感学院学报, 2004, 24(3): 47-50.(Chen F, Xu G H, Wan G H, et al.Changing of contents of protein and amino acids of soybean after soaking with vinegar[J]. Journal of Xiaogan University, 2004, 24(3): 47-50.)

相似文献/References:

[1]张宽朝,阮 飞,金 青,等.刀豆、黑豆脲酶的分离与基本性质研究[J].大豆科学,2013,32(03):361.[doi:10.11861/j.issn.1000-9841.2013.03.0361]
 ZHANG Kuan-chao,RUAN Fei,JIN Qing,et al.Separation and Properties of Urease in Sword Bean and Black Soybean[J].Soybean Science,2013,32(06):361.[doi:10.11861/j.issn.1000-9841.2013.03.0361]
[2]邢承华,郑寨生,张尚法,等.黑豆根尖边缘细胞对盐胁迫的防护效应[J].大豆科学,2012,31(03):416.[doi:10.3969/j.issn.1000-9841.2012.03.016]
 XING Cheng-hua,ZHENG Zai-sheng,ZHANG Shang-fa,et al.Protective Effect of Root Border Cells on Salt Stress in Black Soybean[J].Soybean Science,2012,31(06):416.[doi:10.3969/j.issn.1000-9841.2012.03.016]
[3]陈振武,钱朗,王海英,等.花期追施氮肥对不同株型黑豆品种生殖生长期叶片生理生化特性的影响[J].大豆科学,2010,29(04):623.[doi:10.11861/j.issn.1000-9841.2010.04.0623]
 CHEN Zhen-wu,QIAN Lang,WANG Hai-ying,et al.Effect of Nitrogen Fertilizer on Leaf Physiological and Biochemical Traits of Black Soybean during Reproductive Stage[J].Soybean Science,2010,29(06):623.[doi:10.11861/j.issn.1000-9841.2010.04.0623]
[4]杨卫民,刘保琪,李团霞,等.黑豆种皮中红色素的提取及稳定性研究[J].大豆科学,2010,29(04):688.[doi:10.11861/j.issn.1000-9841.2010.04.0688]
 YANG Wei-min,LIU Bao-qi,LI Tuan-xia,et al.以黑豆种皮为原料提取红色素,对红色素的提取工艺和稳定性进行了研究。结果表明:以酸性乙醇为提取剂,在60℃条件下提取2 h,方法简便、提取率高达17.36%;黑豆红色素对热、亚硫酸钠、蔗糖、苯甲酸钠以及部分金属离子较稳定,可用于功能食品添加剂、保健药物和化妆品等。[J].Soybean Science,2010,29(06):688.[doi:10.11861/j.issn.1000-9841.2010.04.0688]
[5]钱朗,陈振武,刘柏林,等.氮肥对黑豆产量及氮磷钾积累分配的影响[J].大豆科学,2009,28(01):85.[doi:10.11861/j.issn.1000-9841.2009.01.0085]
 QIAN Lang,CHEN Zhen-wu,LIU Bai-lin,et al.Effect of Nitrogen Fertilizer on Yield and Nitrogen,Phosphorous,Potsssium Accumulation and Distrubution of Black Soybean[J].Soybean Science,2009,28(06):85.[doi:10.11861/j.issn.1000-9841.2009.01.0085]
[6]周三,关崎春雄,岳旺,等.野生大豆、黑豆和大豆的异黄酮类成分比较[J].大豆科学,2008,27(02):315.[doi:10.11861/j.issn.1000-9841.2008.02.0315]
 ZHOU San,SEKIZAKI Haruo,YUE Wang,et al.Comparison of Isoflavones among Wild,Black and Yellow Soybeans[J].Soybean Science,2008,27(06):315.[doi:10.11861/j.issn.1000-9841.2008.02.0315]
[7]郭婕,胡利宗,李俐俐,等.黑豆豆芽中大豆异黄酮微波提取工艺研究[J].大豆科学,2015,34(03):493.[doi:10.11861/j.issn.1000-9841.2015.03.0485]
 GUO Jie,HU Li-zong,LI Li-li,et al.Extraction Technology of Soybean Isoflavones from Black Soybean Sprouts Using Microwave-assisted Extraction[J].Soybean Science,2015,34(06):493.[doi:10.11861/j.issn.1000-9841.2015.03.0485]
[8]郝欣先,蒋惠兰,高建伟,等.大豆抗孢囊线虫病品种选育研究[J].大豆科学,1996,15(02):103.[doi:10.11861/j.issn.1000-9841.1996.02.0103]
 [J].Soybean Science,1996,15(06):103.[doi:10.11861/j.issn.1000-9841.1996.02.0103]
[9]康永锋,薛永刚,韩巧英.响应面优化黑豆总黄酮微波辅助提取工艺及其抗氧化性能评价[J].大豆科学,2017,36(06):958.[doi:10.11861/j.issn.1000-9841.2017.06.0958]
 KANG Yong-feng,XUE Yong-gang,HAN Qiao-ying.Optimization of Technology Using Response Surface Analysis for Extracting Flavonoids from Black Bean Assisted by Microwave and Its Antioxidant Activity Evaluation[J].Soybean Science,2017,36(06):958.[doi:10.11861/j.issn.1000-9841.2017.06.0958]
[10]杨晶,肖春萍,胡冬华,等.电磁裂解法提取的黑豆和黄豆异黄酮含量研究[J].大豆科学,2018,37(05):781.[doi:10.11861/j.issn.1000-9841.2018.05.0781]
 YANG Jing,XIAO Chun-ping,HU Dong-hua,et al.Study on the Contents of Isoflavones of Black Beans and Soybean Extracted by Electromagnetic Cracking Method[J].Soybean Science,2018,37(06):781.[doi:10.11861/j.issn.1000-9841.2018.05.0781]

备注/Memo

基金项目:北京中医药大学基本科研业务费自助选题项目(2015-JYB-JSM S026);北京中医药大学校级发展基金。

第一作者简介:张月圆(1992-),女,硕士,主要从事中药活性蛋白及多肽的功能研究。E-mail: 13521311896@163.com。
通讯作者:王灵芝(1973-),女,博士,副研究员,主要从事中药活性蛋白及多肽的功能研究。E-mail: wanglz@bucm.edu.cn。

更新日期/Last Update: 2018-01-28