Production of angiotensin I-converting enzyme inhibitory peptides from soybean protein with Monascus purpureus acid proteinase

IF 4 3区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Process Biochemistry Pub Date : 2005-05-01 DOI:10.1016/j.procbio.2004.08.010

M. Kuba, C. Tana, S. Tawata, M. Yasuda

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引用次数: 121

Abstract

Soybean proteins, β-conglycinin and glycinin were hydrolysed by an acid proteinase from Monascus purpureus. The degree of hydrolysis and inhibitory activities of angiotensin I-converting enzyme (ACE) increased with increasing proteolysis time. After 10 h of incubation, the IC₅₀ values of the β-conglycinin and glycinin hydrolysates were determined as 0.126 mg/ml and 0.148 mg/ml, respectively. Four ACE inhibitory peptides were isolated from the soybean protein hydrolysates and identified by protein sequencer. ACE inhibitory peptides isolated from the β-conglycinin hydrolysate were identified as LAIPVNKP (IC₅₀ = 70 μM) and LPHF (670 μM), and those from the glycinin hydrolysate as SPYP (850 μM) and WL (65 μM). The inhibitory activity of SPYP markedly increased after successive digestion by pepsin, chymotrypsin and trypsin in vitro.

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用红曲霉酸性蛋白酶从大豆蛋白中生产血管紧张素i转换酶抑制肽

用红曲霉酸性蛋白酶水解大豆蛋白、β-甘氨酸和甘氨酸。血管紧张素i转换酶(ACE)的水解程度和抑制活性随蛋白水解时间的延长而增加。孵育10 h后，测定β-甘氨酸和甘氨酸水解物的IC50值分别为0.126 mg/ml和0.148 mg/ml。从大豆蛋白水解物中分离得到4个ACE抑制肽，并用蛋白测序仪进行鉴定。从β-甘氨酸水解液中分离得到的ACE抑制肽分别为LAIPVNKP (IC50 = 70 μM)和LPHF (670 μM)，从甘氨酸水解液中分离得到SPYP (850 μM)和WL (65 μM)。经胃蛋白酶、凝乳胰蛋白酶和胰蛋白酶连续消化后，SPYP的体外抑制活性明显增强。

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来源期刊

Process Biochemistry 生物-工程：化工

CiteScore

8.30

自引率

4.50%

发文量

374

审稿时长

53 days

期刊介绍： Process Biochemistry is an application-orientated research journal devoted to reporting advances with originality and novelty, in the science and technology of the processes involving bioactive molecules and living organisms. These processes concern the production of useful metabolites or materials, or the removal of toxic compounds using tools and methods of current biology and engineering. Its main areas of interest include novel bioprocesses and enabling technologies (such as nanobiotechnology, tissue engineering, directed evolution, metabolic engineering, systems biology, and synthetic biology) applicable in food (nutraceutical), healthcare (medical, pharmaceutical, cosmetic), energy (biofuels), environmental, and biorefinery industries and their underlying biological and engineering principles.