Properties of ACE inhibitory peptide prepared from protein in green tea residue and evaluation of its anti-hypertensive activity

Green tea contains active ingredients which are beneficial for health. While numerous studies have been conducted on the components extracted from green tea, few studies have investigated the active ingredients in tea residue. In this study, proteins were extracted from green tea residue via an optimised alkaline extraction combined with enzymatic hydrolysis, of which, an acidic protease was selected to prepare an enzymatic hydrolysate because of its high angiotensin converting enzyme (ACE) inhibitory activity. The composition characteristics of extracted green tea proteolysis products were elucidated, including amino acid composition, molecular weight distribution and possible amino acid sequences. In addition, the protein hydrolysate had anti-digestive properties, maintained its activity of inhibiting ACE enzyme at different temperatures, pH and metal ions, and exhibited antihypertensive activity in animals. In conclusion, the optimised alkaline extraction and enzymatic hydrolysis conditions of a ACE inhibitory peptide from green tea residue is an optimal extraction method to maintain its antihypertensive activity, providing the basis for the clinical application of green tea for blood pressure reduction.     

Integration of QSAR modelling and QM/MM analysis to investigate functional food peptides with antihypertensive activity

Antihypertensive peptides derived from dietary proteins have long been recognised as an important source of developing functional foods with blood pressure-lowering effect. However, most of such peptides exhibit diverse tastes, such as sweet, bitter, sour and salty, which is a non-negligible aspect considered in the food development process. In the present study, several predictive quantitative structure–activity relationship (QSAR) models that correlate peptide's structural features with their multi-bioactivities and bitter taste are established at both sequence and structure levels, and the models are then used to conduct extrapolation on thousands of randomly generated, structurally diverse peptides with chain lengths ranging from two to six amino acid residues. Based on the statistical results gained from QSAR modelling, the relationship between the antihypertensive activity and bitter taste of peptides at different sequence lengths is investigated in detail. Moreover, the structural basis, energetic property and biological implication underlying peptide interactions with angiotensin-converting enzyme (ACE), a key target of antihypertensive therapy, are analysed at a complex three-dimensional structure level by using a high-level hybrid quantum mechanics/molecular mechanics scheme. It is found that (a) bitter taste is highly dependent on peptide length, whereas ACE inhibitory potency has only a modest correlation with the length, (b) dipeptides and tripeptides perform a moderate relationship between their ACE inhibition and bitterness, but the relationship could not be observed for those peptides of more than three amino acid residues and (c) the increase in sequence length does not cause peptides to exhibit substantial enhancement of antihypertensive activity; this is particularly significant for longer peptides such as pentapeptides and hexapeptides.     

Purification and molecular docking study of angiotensin I-converting enzyme (ACE) inhibitory peptides from hydrolysates of marine sponge Stylotella aurantium

Angioteinsin I-converting enzyme (ACE) inhibitory peptide was isolated from marine sponge (Stylotella aurantium) hydrolysate prepared by various hydrolysis enzymes. The peptic hydrolysate exhibited highest ACE inhibitory activity among them and was fractionated into three ranges of molecular weight. The below 5 kDa fraction showed the highest ACE inhibitory activity and was used for subsequent purification steps. The amino acid sequences of the purified peptides were identified to be Tyr-Arg (337.2 Da), and Ile-Arg (287.2 Da). The purified peptides from marine sponge had an IC₅₀ value of 237.2 μM and 306.4 μM, respectively. The molecular docking study revealed that ACE inhibitory activity of the purified peptides was mainly attributed to the hydrogen bond interactions and Pi interaction between the dipeptides and ACE. The results suggest that marine sponge, S. aurantium would be an attractive raw material for the manufacture of anti-hypertensive nutraceutical ingredients.     

Availability of tyrosine amide for α-chymotrypsin-catalyzed synthesis of oligo-tyrosine peptides

Oligo-tyrosine peptides such as Tyr-Tyr having angiotensin I-converting enzyme (ACE) inhibitory activity could be synthesized by α-chymotrypsin-catalyzed reaction with l-tyrosine ethyl ester in aqueous media. However, peptide yield in the reaction was below 10%. Since l-tyrosine amide showed highly nucleophilic activity for the deacylation of enzyme through which a new peptide bond was made, its application to the enzymatic peptide synthesis was evaluated in this study. Addition of tyrosine amide into the reaction produced Tyr-Tyr-NH₂, of which yield exceeded 130% on the basis of tyrosine ethyl ester. Although purified Tyr-Tyr-NH₂ did not inhibit ACE activity, α-chymotrypsin could act on the dipeptide amide and convert about 40% of it to Tyr-Tyr. The use of both ester and amide forms of tyrosine is expected to be a potent procedure for α-chymotrypsin-catalyzed synthesis of antihypertensive peptides.     

类ACE抑制肽的合成及其活性分析

血管紧张素转换酶(angiotensin converting enzyme,ACE)通过作用于维持血压正常的肾素-血管紧张系统(rennin-angiotensin system, RAS)和激肽释放酶 激肽系统(kallikrein-kinin system, KKS),使其失衡导致血压升高．而ACE活性抑制肽可以竞争性地与ACE的活性中心结合,从而抑制ACE的活性,使血压降低．天然来源的ACE抑制肽与传统的降压药物相比效果较好,无毒副作用,对正常血压没有影响,对于高血压的治疗和人类健康具有重要意义. 本文以酪蛋白中提取的ACE活性抑制肽KVLPVP为先导肽,根据ACE抑制肽的结构特点,设计合成一系列的类ACE肽(similar ACE-like peptides). 利用反相高效液相色谱法(RP-HPLC)直接测定其体外ACE抑制活性. 结果表明,当芳香性的氨基酸残基Phe、Tyr、His和疏水性Val残基位于C-端时会提高多肽的ACE抑制活性,尤其是His位于C 端时,ACE抑制活性更强. 通过对比先导肽与所合成的类ACE肽的ACE活性抑制率,可以发现,类ACE肽的ACE活性抑制率均高于先导肽．基于不同氨基酸残基位于C-端时对多肽的ACE抑制活性的研究,可以为降血压药物分子设计和筛选提供基础.     

Purification and characterization of angiotensin I converting enzyme inhibitory peptides from the rotifer, Brachionus rotundiformis

Angiotensin I converting enzyme (ACE) inhibitory peptide was isolated from the marine rotifer, Brachionus rotundiformis. ACE inhibitory peptides were separated from rotifer hydrolysate prepared by Alcalase, α-chymotrypsin, Neutrase, papain, and trypsin. The Alcalase hydrolysate had the highest ACE inhibitory activity compared to the other hydrolysates. The IC₅₀ value of Alcalase hydrolysate for ACE inhibitory activity was 0.63 mg/ml. We attempted to isolate ACE inhibitory peptides from Alcalase prepared rotifer hydrolysate using gel filtration on a Sephadex G-25 column and high performance liquid chromatography on an ODS column. The IC₅₀ value of purified ACE inhibitory peptide was 9.64 μM, and Lineweaver–Burk plots suggest that the peptide purified from rotifer protein acts as a competitive inhibitor against ACE. Amino acid sequence of the peptide was identified as Asp-Asp-Thr-Gly-His-Asp-Phe-Glu-Asp-Thr-Gly-Glu-Ala-Met, with a molecular weight 1538 Da. The results of this study suggest that peptides derived from rotifers may be beneficial as anti-hypertension compounds in functional foods resource.     

Purification and characterization of angiotensin I-converting enzyme inhibitory peptide from enzymatic hydrolysates of Styela clava flesh tissue

Angiotensin I-converting enzyme (ACE) inhibitory peptide was isolated from the Styela clava flesh tissue. Nine proteases (Protamex, Kojizyme, Neutrase, Flavourzyme, Alcalase, pepsin, trypsin, α-chymotrypsin and papain) were used, and their respective enzymatic hydrolysates and an aqueous extract were screened to evaluate their potential ACE inhibitory activity. Among all of the test samples, Protamex hydrolysate possessed the highest ACE inhibitory activity, and the Protamex hydrolysate of flesh tissue showed relatively higher ACE inhibitory activity compared with the Protamex hydrolysate of tunic tissue. We attempted to isolate ACE inhibitory peptide from the Protamex hydrolysate of S. clava flesh tissue using ultrafiltration, gel filtration on a Sephadex G-25 column and high performance liquid chromatography (HPLC) on an ODS column. The purified ACE inhibitory peptide exhibited an IC₅₀ value of 37.1 μM and was identified as non-competitive inhibitor of ACE. Amino acid sequence of the peptide was identified as Ala-His-Ile-Ile-Ile, with a molecular weight 565.3 Da. The results of this study suggested that the peptides derived from enzymes-assisted extracts of S. clava would be useful new antihypertension compounds in functional food resource.     

Antihypertensive Peptides Derived from Soy Protein by Fermentation

Soy protein is widely used as a nitrogen source in infant and adult formulations, both in an intact and hydrolyzed form. Here, the objective was to screen for maximum proteolytic activity in different strains of lactobacillus and use it for fermentation of soy protein to obtain Angiotensin converting-I-enzyme (ACE I) inhibitory peptides for its use as a nutraceutical. Based on the proteolytic activity, Lactobacillus casei spp. pseudoplantarum was selected. The two ACE inhibitory peptide fractions F2 and F3 were isolated having IC₅₀ values of 17 ± 0.63 and 30 ± 0.13 μg/ml respectively. The N-terminal sequence of peptide (F2) was determined to be Leu-Ile-Val-Thr-Gln (LIVTQ). The peptide analogues of LIVTQ were synthesized to study the effect of individual residues on ACE enzyme. LIVTQ and LIVT peptides show inhibition against ACE enzyme having an IC₅₀ value of 0.087 and 0.110 μM respectively. Our results depict that glutamine (Q) and threonine (T) residues have an important role in ACE inhibition.     

Availability of tyrosine amide for α-chymotrypsin-catalyzed synthesis of oligo-tyrosine peptides

Oligo-tyrosine peptides such as Tyr-Tyr having angiotensin I-converting enzyme (ACE) inhibitory activity could be synthesized by α-chymotrypsin-catalyzed reaction with l-tyrosine ethyl ester in aqueous media. However, peptide yield in the reaction was below 10%. Since l-tyrosine amide showed highly nucleophilic activity for the deacylation of enzyme through which a new peptide bond was made, its application to the enzymatic peptide synthesis was evaluated in this study. Addition of tyrosine amide into the reaction produced Tyr-Tyr-NH₂, of which yield exceeded 130% on the basis of tyrosine ethyl ester. Although purified Tyr-Tyr-NH₂ did not inhibit ACE activity, α-chymotrypsin could act on the dipeptide amide and convert about 40% of it to Tyr-Tyr. The use of both ester and amide forms of tyrosine is expected to be a potent procedure for α-chymotrypsin-catalyzed synthesis of antihypertensive peptides.     

Angiotensin I converting enzyme (ACE) inhibitory peptide derived from the sauce of fermented blue mussel, Mytilus edulis

The angiotensin I converting enzyme (ACE) inhibitory activity of fermented blue mussel sauce (FBMS) was investigated. Blue mussels were fermented with 25% NaCl (w/w) at 20 degrees C for 6 months and the resultant mixture was passed through a 40-mesh sieve, desalted using an electrodialyzer and then lyophilized. The IC(50) value of FBMS for ACE activity was 1.01 mg/ml. An ACE inhibitory peptide was purified from FBMS using Sephadex G-75 gel chromatography, SP-Sephadex C-25 ion exchange chromatography and reversed-phase high-performance liquid chromatography on a C(18) column. The IC(50) value of purified ACE inhibitory peptide was 19.34 microg/ml, and 10 amino acid residues of the N-terminal sequence was EVMAGNLYPG. The purified peptide was evaluated for antihypertensive effect in spontaneously hypertensive rats (SHR) following oral administration. Blood pressure significantly decreased after peptide ingestion. This result suggested that FBMS may have beneficial effects on hypertension.     

Analysis of novel angiotensin-I-converting enzyme inhibitory peptides from protease-hydrolyzed marine shrimp Acetes chinensis.

Acetes chinensis is an underutilized shrimp species thriving in the Bo Hai Gulf of China. In a previous study, we had used the protease from Bacillus sp. SM98011 to digest this kind of shrimp and found that the oligopeptide-enriched hydrolysate possessed antioxidant activity and high angiotensin I-converting enzyme (ACE) inhibitory activity with an IC50 value of 0.97 mg/ml. In this paper, by ultrafiltration, gel permeation chromatography and reversed-phase high-performance liquid chromatography (RP-HPLC), five peptides with high ACE inhibitory activity were purified from the shrimp hydrolysates and their sequences were identified by amino acid composition analysis and molecular weight (MW) analysis. Three of them, FCVLRP (a), IFVPAF (f) and KPPETV (j), were novel ACE inhibitory peptides. Their IC50 values were 12.3 microM, 3.4 microM and 24.1 microM, respectively, and their recoveries were 30 mg/100 g (solid basis of shrimp), 19 mg/100 g and 33 mg/100 g, respectively. Lineweaver-Burk plots for the three novel peptides showed that they are all competitive inhibitors. To test the ACE inhibitory activity of peptide a, f, j after they were digested by digestive enzymes in vivo, 12 derived peptides from FCVLRP and IFVPAF were synthesized based on their amino acid sequences and the cleavage sites of digestive enzymes. No digestive enzyme cleavage site was found in KPPETV. The IC50 values of the derived peptides were determined and the result showed that except for VPAF, FC and FCVL, the ACE inhibitory activity of the other nine derived peptides did not significantly change when compared with their original peptides. Surprisingly, five peptides had lower IC50 values than their original peptides, particularly for RP (IC50 value = 0.39 microM), which is about 30 times lower than its original peptide and almost the lowest IC50 value for ACE inhibitory peptides reported. Therefore, the novel peptides identified from A. chinensis hydrolysates probably still maintain a high ACE inhibitory activity even if they are digested in vivo. This is the first report about novel ACE inhibitory peptides from hydrolysates of marine shrimp A. chinensis. The novel peptides from hydrolysate of A. chinensis and some of their derived peptides with high ACE inhibitory activity probably have potential in the treatment of hypertension or in clinical nutrition.     

Peptidomic Analysis of ACE Inhibitory Peptides Extracted from Fermented Goat Milk

Angiotensin converting enzyme (ACE) is considered as main causative agent in growing hypertension and other cardiovascular disorders. Inhibition of ACE by producing and purifying bioactive peptides of fermented goat milk is aimed in this study. Protein extracted from goat milk was hydrolyzed with proteolytic enzymes of LH (Lactobacillus helveticus-cicc22171). ACE inhibitory peptides were purified from fermented samples of goat milk protein by optimizing incubation time to 8 h (S-8), 16 h (S-16), 24 h (S-24) and 36 h (S-36), via ultrafiltration. S-8 was used as control to compare the ACE inhibition trend. Molecular weight cut-off; 10000 Da (PM-10) and Ultracel 3K membrane was used to perform ultrafiltration. Sample with 24 h incubation time was considered as best hydrolyzed as compared to others, by applying Nin-Hydrin reaction and SDS-PAGE analysis. ACE inhibitory assay validated the authenticity of S-24 in inhibiting ACE, in vitro. Furthermore, Q executive hybrid quadrupole-orbitrap mass spectrometry was used to determine molecular structure and amino acid sequence of ACE inhibitory peptides. Three peptides, VLPVPQKAVPQ, VLPVPQKVVPQ and TQTPVVVPPFLQPEIMGVPKVKE containing functional amino acid structure, has been identified with highest ACE inhibitory activity on the basis of intensity, size and higher concentration of hydrophobic amino acids as shown in figure as graphical abstract. Fermented goat milk containing these novel bioactive peptides, can be used as nutraceuticals to inhibit ACE and control hypertension in future.

Graphical Abstract

     

Purification,modification and inhibition mechanism of angiotensin I-converting enzyme inhibitory peptide from silkworm pupa (Bombyx mori) protein hydrolysate

Angiotensin I-converting enzyme (ACE) inhibitory peptide from silkworm pupa (Bombyx mori) was purified, modified, as well as inhibition mechanism by using molecular docking analysis. Silkworm pupa protein was hydrolyzed by neutral protease and the obtained hydrolysate was subjected to various types of chromatography to acquire peptide isolate. Then the molecular mass and amino acid sequence of the peptide was determined by MALDI-TOF/TOF MS. Subsequently, thermal and digestive stability of the peptide were explored through a high temperature processing and a simulated gastrointestinal digestion. Finally, the peptide was modified to smaller peptides and investigated their potentiate activities. Results showed that the peptide from silkworm pupa was determined to be Gly-Asn-Pro-Trp-Met (603.7 Da) with IC₅₀ 21.70 μM. Stability testing showed that ACE inhibitory activities were not significantly changed at temperature from 40 to 80 °C as well as during in vitro gastrointestinal digestion. The inhibitory activity of four modified peptides were Trp-Trp > Gly-Asn-Pro-Trp-Trp > Asn-Pro-Trp-Trp > Pro-Trp-Trp, and the IC₅₀ of Trp-Trp was 10.76 μM Docking simulation revealed that the inhibitory activity was closely related to the spatial structure of peptide and zinc ions. The purified peptide and four modified peptides may be beneficial as functional food or drug for treating hypertension.     

新型抗高血压活性肽GAP-A的一级结构及生理活性研究

研究了新型乳酪蛋白源抗高血压活性肽GAP-A的分子量与一级结构,并检测了其对体外血管紧张素转化酶(ACE)的抑制活性及体内降血压效果。结果显示:抗高血压活性肽GAP-A分子量为M2,氨基酸序列为B1-B2-B3;GAP-A在体外对ACE有很强的抑制活性,抑制率为79.6%;GAP-A对自发性高血压大鼠(spontaneously hypertensive rats,SHR)有显著的降血压作用,而对血压正常的SD大鼠的血压没有影响。     

Defining the Erythrocyte Binding Domains of Plasmodium vivax Tryptophan Rich Antigen 33.5

Tryptophan-rich antigens play important role in host-parasite interaction. One of the Plasmodium vivax tryptophan-rich antigens called PvTRAg33.5 had earlier been shown to be predominantly of alpha helical in nature with multidomain structure, induced immune responses in humans, binds to host erythrocytes, and its sequence is highly conserved in the parasite population. In the present study, we divided this protein into three different parts i.e. N-terminal (amino acid position 24–106), middle (amino acid position 107–192), and C-terminal region (amino acid position 185–275) and determined the erythrocyte binding activity of these fragments. This binding activity was retained by the middle and C-terminal fragments covering 107 to 275 amino acid region of the PvTRAg33.5 protein. Eight non-overlapping peptides covering this 107 to 275 amino acid region were then synthesized and tested for their erythrocyte binding activity to further define the binding domains. Only two peptides, peptide P4 (at 171–191 amino acid position) and peptide P8 (at 255–275 amino acid position), were found to contain the erythrocyte binding activity. Competition assay revealed that each peptide recognizes its own erythrocyte receptor. These two peptides were found to be located on two parallel helices at one end of the protein in the modelled structure and could be exposed on its surface to form a suitable site for protein-protein interaction. Natural antibodies present in the sera of the P. vivax exposed individuals or the polyclonal rabbit antibodies against this protein were able to inhibit the erythrocyte binding activity of PvTRAg33.5, its fragments, and these two synthetic peptides P4 and P8. Further studies on receptor-ligand interaction might lead to the development of the therapeutic reagent.     

Expression of Functional Region of Peanut (Arachis hypogaea) Agglutinin Gene as an Active Lectin in Insect Cells

Natural peanut agglutinin (PNA) gene is expressed with a signal sequence of 23 amino acids and a C terminal peptide of 14 amino acids. Functionally active recombinant PNA having apparent subunit molecular weight of 29kD was obtained when expressed without signal peptide and non-essential C terminal peptide sequences in insect cells. Expression in insect cells (Sf9) was driven by a 129bp Spodoptera litura nucleopolyhedrosis virus (S/NPV) sequence containing its polyhedrin promoter.     

Characterization of new antihypertensive angiotensin I-converting enzyme inhibitory peptides from Korean traditional rice wine

This study describes the characterization of a new angiotensin I-converting enzyme (ACE) inhibitory peptide from a Korean traditional rice wine. After purification of the ACE inhibitor peptides with ultrafiltration, Sephadex G-25 column chromatography, and successively C?? and SCX solid-phase extraction, reverse-phase HPLC, and size exculsion chromatography, two types of the purified ACE inhibitors with IC?? values of 0.34 mg/ml and 1.23 mg/ml were finally obtained. The two purified ACE inhibitors (F-1 and F-2) were found to have two kinds of novel oligopeptides, showing very little similarity to other ACE inhibitory peptide sequences. The amino acid sequences of the two purified oligopeptides were found to be Gln- Phe-Tyr-Ala-Val (F-1) and Ala-Gly-Pro-Val-Leu-Leu (F-2), and their molecular masses were estimated to be 468.7 Da (F-1) and 357.7 Da (F-2), respectively. They all showed a clear antihypertensive effect on spontaneously hypertensive rats at a dosage of 500 mg/kg.     

Novel antihypertensive hexa- and heptapeptides with ACE-inhibiting properties: from the in vitro ACE assay to the spontaneously hypertensive rat

Bioactive ACE inhibiting peptides are gaining interest in hypertension treatment. We have designed and screened six synthetic heptapeptides (PACEI48 to PACEI53) based on two hexapeptide leads (PACEI32 and PACEI34) to improve ACE inhibitory properties and assess their antihypertensive effects. ACE activity was assayed in vitro and ex vivo. Selected peptides were administered to spontaneously hypertensive rats (SHRs) and normotensive Wistar-Kyoto (WKY) rats. In vitro cytotoxicity was assessed with the MTT reduction test. The six heptapeptides at low micromolar concentration produced different degrees of in vitro inhibition of ACE activity using the synthetic substrate HHL or the natural substrate angiotensin I; and ex vivo inhibition of ACE-dependent, angiotensin I-induced vasoconstriction, but not angiotensin II-induced vasoconstriction. Oral administration of the hexapeptide PACEI32L, and the heptapeptides PACEI50L and PACEI52L, induced reductions in systolic blood pressure lasting up to 3 h in SHRs but not in WKY rats. Intravenous injection of PACEI32L and PACEI50L, but not PACEI52L, induced acute transient reductions in mean blood pressure of SHRs. d-Amino acid peptides showed five-fold less ACE inhibitory potency, no inhibitory effect on angiotensin I-induced vasoconstriction, and antihypertensive effect in SHRs after i.v. injection, but not after oral administration. The toxicity of peptides to reduce the viability of cultured cells was in the millimolar range. In conclusion, we have obtained novel rationally designed heptapeptides with improved ACE inhibitory properties when compared to lead hexapeptides. One selected hexapeptide and two heptapeptides show oral antihypertensive effects in SHRs and appear safe in cytotoxicity assays.     

The inhibitory activity of HL-7 and HL-10 peptide from scorpion venom (Hemiscorpius lepturus) on angiotensin converting enzyme: Kinetic and docking study

The hypertension is one of the highest risk factors for stroke, myocardial infarction, vascular disease and chronic kidney disease. Angiotensin converting enzyme (ACE) has an important role in the physiological regulation of cardiovascular system. ACE inhibition is a key purpose for hypertension treatment. In this study, two peptides named HL-7 with the sequence of YLYELAR (MW: 927.07 Da) and HL-10 with the sequence of AFPYYGHHLG (MW: 1161.28 Da) were identified from scorpion venom of H. lepturus. The inhibitory activity of HL-7 and HL-10 was examined on rabbit ACE. The inhibition mechanisms were assayed by kinetic and docking studies. The IC₅₀ values for ACE inhibition of HL-7 and HL-10 were 9.37 µM and 17.22 µM, respectively. Lineweaver-Burk plots showed that two peptides inhibited rabbit ACE with competitive manner. The molecular docking conformed experimental results and showed that the two peptides interacted with N-domain and C-domain active sites. Also, docking study revealed that the two peptides can form hydrogen and hydrophobic bonds at their binding sites. Both peptides had higher affinity to N-domain. Our results showed that HL-7 exhibited more strong interactions with amino acids at active site. It seems that HL-10 peptide could occupy more space, thereby inhibiting the substrate entrance to active site.     

一株高ACE抑制活性乳杆菌的筛选鉴定、培养条件优化及其基因组分析

【背景】乳杆菌是人体肠道益生菌,其发酵乳中可检测到血管紧张素转换酶(Angiotensin converting enzyme,ACE)抑制肽。海洋蕴藏着丰富的微生物种质资源,分布着大量的乳杆菌。【目的】从高通量测序结果中发现渤海沉积物中分布着乳杆菌资源。为了进一步开发具有ACE抑制活性的海洋乳杆菌资源,提高乳杆菌发酵乳的ACE抑制活性,筛选瑞士乳杆菌(Lactobacillus helveticus)并对其特性进行研究。【方法】采用高通量测序技术从渤海沉积物中检测乳杆菌,并对其进行富集分离,对筛选出的乳杆菌进行16S rRNA基因鉴定和全基因组测序分析,测定该菌发酵乳的ACE抑制活性,并采用正交实验优化发酵条件。【结果】渤海沉积物中含有乳杆菌并成功筛选出一株瑞士乳杆菌GY-3,其发酵乳具有较高的ACE抑制活性。该菌在发酵温度37°C,接种量3%,且在脱脂乳培养基中添加1.0%葡萄糖,0.6%大豆蛋白胨,1.0%酵母浸粉,0.04%MnSO_4·4H_2O时,抑制活性最高,可达79.52%。通过对该菌基因组进行测序研究,发现其产ACE抑制肽涉及蛋白酶系统、多肽转运系统和肽酶系统。【结论】为扩大海洋源产ACE抑制肽的乳杆菌种质资源、开发高产ACE抑制活性的发酵菌株奠定了基础,进一步研究了如何提高乳杆菌产ACE抑制肽的水平,并对其基因组进行了研究,为今后生物学特性和ACE抑制活性机理的研究奠定了基础,并对降血压相关产品的开发具有重要意义。