不同苦荞蛋白酶解产物抗氧化活性研究

以苦荞蛋白作为底物,采用碱性蛋白酶Alcalase 2.4 L、木瓜蛋白酶、胃蛋白酶、胰蛋白酶以及胃蛋白酶加胰蛋白酶模拟体内蛋白消化,制备苦荞麦蛋白水解物。采用DPPH及ABTS~+·法比较不同的蛋白水解物与水解前苦荞蛋白的体外抗氧化活性。结果表明:不同蛋白酶水解产物水解度由高到低的顺序为:碱性蛋白酶胃蛋白酶~胰蛋白酶胃蛋白酶木瓜蛋白酶胰蛋白酶,其中碱性蛋白酶水解苦荞蛋白水解度达29.95%。苦荞蛋白本身具有一定的抗氧化能力,其中DPPH清除率及ABTS~+·清除率最高分别达71.91%及11.25%,但均显著低于阳性对照Vc。随着水解程度的增加,苦荞蛋白水解产物抗氧化能力逐渐增强。其中,以碱性蛋白酶酶解产物抗氧化活性最高,其DPPH清除率及ABTS~+·清除率最高分别为91.65%(0.5 mg/mL)及16.67%(1 mg/mL),均显著高于原苦荞蛋白。其中,碱性蛋白酶水解产物的DPPH自由基清除率在高浓度(0.5mg/mL)条件下,与阳性对照Vc持平。同时碱性蛋白酶酶解产物抗氧化性(DPPH清除率及ABTS~+·清除率)显著优于其他蛋白酶解产物。因此,苦荞麦蛋白采用碱性蛋白酶解制备苦荞水解产物可作为天然的抗氧化剂。     

两种酶水解鲢鱼蛋白产物功能性质研究

采用Alcalase 2.4L和Flavourzyme 500L蛋白酶对鲢鱼肉进行水解,研究了水解产物的水解度与体系的pH值对其功能性质的影响。水解产物的溶解度在pH4时最低,碱性时具有较高的溶解度;浊度随pH值变化趋势与溶解度相反,浊度越大,溶解度越小。随水解度的增加,水解产物的乳化活性指数、乳化稳定性、起泡性和泡沫稳定性减小(p<0.05);在水解度相同情况下,水解产物的功能性质取决于所用酶的种类。结果表明,鲢鱼肉蛋白水解产物的功能性质受其水解度和所用酶种类的影响。     

Antioxidant activities and functional properties of grass carp (Ctenopharyngodon idellus) protein hydrolysates

BACKGROUND: Grass carp, with an annual production exceeding 4 × 10⁶ t in China in 2009, has not been developed into a high‐value product. In this study the antioxidant activities and functional properties of grass carp protein hydrolysates prepared with Alcalase 2.4L (HA) and papain (HP) were investigated. The hydrolysate with strongest radical‐scavenging activity and reducing power was assessed further for changes in its antioxidant activity during simulated gastrointestinal digestion. RESULTS: As the degree of hydrolysis (DH) increased, the metal‐chelating activity of both HA and HP increased while their reducing power and 1,1‐diphenyl‐2‐picrylhydrazyl radical (DPPH^?)‐scavenging activity decreased (P < 0.05). At the same DH, HP possessed higher DPPH^?‐scavenging activity and reducing power than HA (P < 0.05). The metal‐chelating activity of HP with 10% DH was significantly increased after in vitro gastrointestinal metabolism (P < 0.05). Regarding their functional properties, all hydrolysates were more than 81% soluble over a wide range of pH (3–8). At the same DH, HP showed higher emulsion activity index but lower solubility and foaming capacity than HA. CONCLUSION: Grass carp protein hydrolysates showed high solubility over a wide pH range and could be used as natural antioxidants in food systems. Copyright © 2011 Society of Chemical Industry     

Biochemical properties and antioxidant activity of myofibrillar protein hydrolysates obtained from patin (Pangasius sutchi)

Antioxidant activities of myofibrillar protein hydrolysates (MPH) prepared from patin (Pangasius sutchi) using papain and Alcalase^® 2.4 L with different degrees of hydrolysis (DH) were investigated. With a DH of 65.83%, the hydrolysate prepared with papain exhibited the maximum of 1,1‐diphenyl‐2‐picrylhydrazyl (DPPH) radical‐scavenging activity (71.14%) with a reducing power of 0.310. At a concentration of 1 mg mL^?1, the papain‐MPH exhibited a Trolox equivalent antioxidant capacity (TEAC) of 70.50 ± 1.22 μmol g^?1 protein. With a DH of 83.6%, the Alcalase‐MPH had the highest metal‐chelating activity. Low molecular weight peptides showed higher antioxidant activities than high molecular weight peptides. Both papain‐MPH and Alcalase‐MPH contained high amounts of the essential amino acids (48.71% and 48.10%, respectively) with glutamic acid, aspartic acid and lysine as the dominant amino acids. These results suggest that the protein hydrolysates derived from patin may be used as an antioxidative ingredient in both functional food and nutraceutical applications.     

鳙鱼鱼肉蛋白的酶解及其对功能性质的影响

为了改善鳙鱼鱼肉蛋白(BCMP)的功能性质以扩大其在食品工业中的应用,以鳙鱼为原料制备了鳙鱼鱼肉蛋白,并利用碱性蛋白酶Alcalase2.4L对其进行水解,得到了3种不同水解度(DH4.5%、DH9.0%、DH13.5%)的酶解物。研究了BCMP及其酶解物的功能性质,包括溶解性、持水性、持油性、乳化性、起泡性。结果表明,与原鳙鱼鱼肉蛋白相比,酶解物的功能性质除持油性以外均有不同程度的提高。此外,DH4.5%的酶解物乳化性和起泡性最高,过度水解(DH9.0%、DH13.5%)反而造成乳化性和起泡性下降。     

Enzymatic hydrolysis of wheat gluten by proteases and properties of the resulting hydrolysates

The insolubility of gluten in aqueous solutions is one of the major limitations for its more extensive use in food processing. Wheat gluten was enzymatically hydrolyzed by several commercially available proteases (Alcalase 2.4L, PTN 6.0S, Pepsin, Pancreatin, Neutrase and Protamex™) with protein recovery of 81.3%, 42.5%, 53.3%, 61.6%, 46.3% and 43.8%, respectively. The hydrolytic efficiency of these proteases on wheat gluten was also compared. Alcalase served best for the preparation of wheat gluten hydrolysates with the maximum degree of hydrolysis (DH) 15.8%. Subsequently, the solubility of wheat gluten hydrolysates (WGHs) obtained with those enzymes was comparably evaluated. The products had excellent solubility (>60%) over a pH range of 2–12. The molecular weight distribution of WGHs was further determined by SDS-PAGE and size exclusion chromatography on Sephadex G-15. The results showed that with the increasing of DH values, there occurred a large amount of smaller polypeptides.     

Enzymatic preparation and functional properties of wheat gluten hydrolysates

The water-insolublity of wheat gluten is one of the major limitations for its more extensive use in food processing. Wheat gluten was enzymatically hydrolyzed by several commercially available proteases (Pancreatin Trypsin 6.0S, Porcine pepsin, Pancreatin and Alcalase 2.4L) with protein recovery varying from 42.5 ± 0.7% to 81.3 ± 0.1%. The hydrolytic efficiency of these proteases on wheat gluten was also compared. Alcalase served best for the preparation of wheat gluten hydrolysates (WGHs). Thus, Alcalase-assisted hydrolysates of wheat gluten (AWGHs) with different degrees of hydrolysis (DH 5.0, 10.0 and 15.0%) were further assessed for their functionalities. All the AWGHs had excellent solubility (>60%) over a pH range of 2–12. The emulsifying and foaming properties of AWGH with relatively low DH (5.0%) were remarkably higher compared to the original gluten. However, extensive hydrolysis of gluten resulted in remarkable reduction in emulsifying and foaming properties.     

鳄鱼骨双酶酶解产物的功能特性及其抗氧化活性

为了全面了解酶解时间、蛋白酶种类对鳄鱼骨蛋白酶解产物抗氧化性和功能特性的影响,采用木瓜蛋白酶、碱性蛋白酶及双酶(先加入木瓜蛋白酶,后加入碱性蛋白酶)在各自最适条件下对其进行酶解,制备了不同水解度的酶解产物,并对其功能特性及抗氧化性进行分析。结果表明:随着酶解时间的延长,酶解产物的亚铁离子螯合能力和还原力均有所增强。在酶解0.25 h时,酶解产物具有较强的清除DPPH自由基的能力,随着酶解时间的延长,木瓜蛋白酶酶解产物清除DPPH自由基的能力不断下降,碱性蛋白酶先下降后上升,而双酶酶解产物则没有显著变化。在2～4 h内相同酶解时间下,与单酶酶解产物相比,双酶酶解产物具有较强的亚铁离子螯合能力、还原力及清除DPPH自由基的能力(P<0.05)。在酶解产物的功能性质方面,随着酶解时间的延长,双酶酶解产物较单一酶酶解产物具有更好的溶解性、热稳定性及乳化性。结果表明,双酶酶解较单一酶酶解得到的产物具有较强的抗氧化性。     

蚕蛹多肽制备工艺及其体外抗氧化活性

采用碱性蛋白酶、风味蛋白酶、复合蛋白酶、木瓜蛋白酶、胰蛋白酶水解蚕蛹蛋白,以水解度和清除DPPH·能力为指标对酶解过程进行分析,并研究水解产物多肽的体外抗氧化活性。结果表明,碱性蛋白酶对蚕蛹蛋白具有较好的水解效果,其水解产物有较高抗氧化活性,对DPPH·、超氧阴离子自由基(O2·)和羟自由基(·OH)都具有较强的清除能力。     

波纹巴非蛤蛋白酶解产物的抗氧活性及分子量分布研究

以波纹巴非蛤为原料,分离得到肌浆蛋白、肌原纤维蛋白、基质蛋白3种蛋白组分,分别研究其氨基酸组成及其胰蛋白酶酶解产物的体外抗氧化活性及分子量分布。结果表明该三种蛋白质中必需氨基酸、碱性氨基酸、疏水性氨基酸和支链氨基酸含量较高。抗氧化实验结果显示,三种蛋白对DPPH自由基、羟基自由基和超氧阴离子自由基均有一定的清除效果,且清除率与酶解液浓度存在一定的量效关系。与其它两种蛋白酶解产物相比,肌浆蛋白酶解液中小分子肽含量最高,分子量小于1500 u占42.55±0.27%,其对自由基清除效果也明显高于其它两种蛋白酶解液,对DPPH自由基、羟基自由基和超氧阴离子自由清除活性的IC50值分别为4.82、4.70和3.75 mg/mL。肌浆蛋白和肌原纤维蛋白酶解产物的还原能力相当,浓度为10 mg/mL时,其OD700分别为0.58和0.57,基质蛋白酶解产物的还原能力较弱。     

鱼鳞明胶酶解制备超氧阴离子清除活性肽的研究

研究了Alcalase2.4L水解鱼鳞明胶的工艺条件及产物的超氧阴离子清除活性。以水解度为指标,在单因素实验的基础上,通过响应面实验优化得到最佳酶解条件为温度54.5℃,pH7.7,底物浓度1.8%(W/V),加酶量1%(W/W),在此条件下水解2h的水解度为13.02%。对酶解产物进行体外超氧阴离子清除活性分析,结果表明,不同水解度的酶解产物表现出不同的抗氧化活性。在优化条件下水解4h,水解产物的超氧阴离子清除活性最高,IC50为0.36mg/mL,此时水解度为14.11%。     

Proteinase and exopeptidase hydrolysis of whey protein: Comparison of the TNBS,OPA and pH stat methods for quantification of degree of hydrolysis

Whey protein hydrolysates were generated with Alcalase 2.4L and Debitrase HYW20 which are proteinase and exopeptidase enriched enzyme preparations, respectively. Degree of hydrolysis (DH) values were quantified with the TNBS, OPA and pH stat methods. Poor correlation was observed between the three methods for DH values in Debitrase HYW20 hydrolysates. For Alcalase 2.4L hydrolysates, the OPA method gave DH values that were approximately 15% lower than the pH stat, whereas TNBS DH values were similar to the pH stat method. As whey proteins are relatively rich in cysteine, a weak and unstable reaction between OPA and cysteine was thought to contribute to the under-estimation of DH in whey protein hydrolysates. Since TNBS reacts strongly with cysteine and TNBS DH values were unaffected by the type of enzyme preparation used to generate the hydrolysate, the TNBS method was deemed most suitable for the quantification of DH in whey protein hydrolysates.     

花椒籽仁抗氧化肽水解用酶的筛选研究

采用Protamex、Alcalase2.4L、Flavourzyme500MG、Neutrase0.5L、木瓜蛋白酶5种酶制剂水解花椒籽仁蛋白制备抗氧化肽,以水解度(DH)、多肽含量和水解产物的总抗氧化能力(TAC)、DPPH自由基清除能力、在亚油酸体系中的抗氧化性为指标对水解过程进行了分析,结果表明,Alcalase2.4L蛋白酶是制备花椒籽仁抗氧化肽的最适水解酶,其水解物的水解度(DH)为20.42%,多肽含量为21.83mg/mL,总抗氧化能力(TAC)和DPPH自由基清除能力分别为0.44mmol/L、65.47%,此外在亚油酸体系中具有一定的抗氧化性。     

ENZYMATIC HYDROLYSIS OF WHEY PROTEINS BY TWO DIFFERENT PROTEASES AND THEIR EFFECT ON THE FUNCTIONAL PROPERTIES OF RESULTING PROTEIN HYDROLYSATES

Whey protein concentrate (WPC 80) was hydrolyzed by Alcalase 2.4 L and Protamex to 5, 10, 15 and 20% degree of hydrolysis (DH). WPC 80 and its hydrolysates were analyzed, compared and used for measuring some functional properties. All hydrolysates were different from WPC 80 in protein, moisture and ash content. Free amino groups and protein solubility increased with increasing DH. The peptides produced by hydrolysis had smaller molecular sizes, and their average molecular weight decreased as the DH increased. Except hydrolysates generated by Alcalase 2.4 L at 5% DH, all others showed poor emulsifying and foaming properties compared with unhydrolyzed WPC 80. Gelation properties of WPC 80 and its hydrolysates were different. The global amino acid compositions did not differ significantly between the different hydrolysates, and they were very close among WPC 80 and its hydrolysates except for Methionine, Glycine, Histidine and Valine.     

糖基化反应条件对鲢鱼鱼肉碱性蛋白酶解产物清除DPPH自由基的影响

为提高鲢鱼鱼肉蛋白酶解产物抗氧化活性,本研究将葡萄糖和低聚异麦芽糖通过糖基化反应分别引入到鲢鱼鱼肉蛋白碱性蛋白酶酶解产物中,利用分光光度计测定其清除DPPH自由基能力。研究结果表明碱性蛋白酶酶解产物与葡萄糖比例为2:1,在60℃时反应得到的产物清除DPPH能力显著高于50℃条件下的反应产物。鲢鱼鱼肉蛋白的碱性蛋白酶酶解物在一定条件下与葡萄糖反应可以提高其清除DPPH自由基能力。     

Purification and identification of antioxidant peptides from grass carp muscle hydrolysates by consecutive chromatography and electrospray ionization-mass spectrometry

Grass carp muscles were hydrolyzed with various proteases (papain, bovine pancreatin 6.0, bromelain, neutrase 1.5MG and alcalase 2.4L) to extract antioxidant peptides. The hydrolysates were assessed using methods of hydroxyl radical scavenging ability and lipid peroxidation inhibition activity. Hydrolysate prepared with alcalase 2.4L was found to have the highest antioxidant activity. It was purified using ultrafiltration and consecutive chromatographic methods including ion-exchange chromatography, multilayer coil high-speed counter-current chromatography, and gel filtration chromatography. The purified peptide, as a potent antioxidant, was identified as Pro-Ser-Lys-Tyr-Glu-Pro-Phe-Val (966.3 Da) using RP-HPLC connected on-line to an electrospray ionization mass spectrometry. As well, it was found that basic peptides had greater capacity to scavenge hydroxyl radical than acidic or neutral peptides and that hydrophobic peptides contributed more to the antioxidant activities of hydrolysates than the hydrophilic peptides. In addition, the amino acid sequence of the peptide might play an important role on its antioxidant activity.     

酶解法制备草鱼皮蛋白水解物增殖嗜热链球菌

嗜热链球菌被认为是一种多功能益生菌,将Neutrase 0.8L、Protease P “Amano”6、ProteAX、Alcalase 2.4LFG和风味中性蛋白酶5 种草鱼皮蛋白水解物作为培养嗜热链球菌的氮源,以水解物对嗜热链球菌的增殖效果为评价指标,选择最佳水解用酶,并利用正交试验优化酶解条件。结果表明,5 种微生物蛋白酶中,Neutrase 0.8L是水解草鱼皮蛋白的最佳用酶,最佳的酶解条件为：加酶量1%、酶解时间80 min、起始pH 6.5、料水比1∶2（m/V）。利用Neutrase 0.8L酶解法制备得到的富含胶原蛋白肽的草鱼皮蛋白水解物,是一种培养嗜热链球菌的理想氮源。     

Compositions and antioxidant properties of protein hydrolysates from the skins of four carp species

Compositions and antioxidant properties of protein hydrolysates prepared from four carp skins: black carp, grass carp, silver carp and bighead carp, using pepsin, with a degree of hydrolysis (DH) of 6–15%, were investigated. The yield of freeze‐dried hydrolysates was in the range of 54–62 g/100 g (dry skin). The content of protein and ash in four freeze‐dried hydrolysates was 72–81% and 8–17%, respectively. All hydrolysates contained high amount of hydrophobic amino acid residues (389–480 residues/1000 residues). Meanwhile, their antioxidant properties were evaluated by in vitro assays. The results revealed that all hydrolysates possessed potent antioxidant activities and showed dose dependency as the activity increased with sample concentration, capable of scavenging 72–88% of DPPH and 61–69% of hydroxyl radicals, respectively, at the highest tested concentration. The hydrolysates exhibited high reducing power and β‐carotene–linoleic acid oxidation inhibition. Among the four hydrolysates, the hydrolysate derived from bighead carp skin was superior to others in terms of yield, DH and antioxidant activities.     

Hydrolysis conditions for antioxidant peptides derived from enzymatic hydrolysates of sandfish (<Emphasis Type="Italic">Arctoscopus japonicus</Emphasis>)

Sandfish (Arctoscopus japonicus) meat and roe were used as natural materials for the preparation of antioxidant peptides using enzymatic hydrolysis. Meat and roe were hydrolyzed using Alcalase 2.4 L and Collupulin MG, respectively. Optimal hydrolysis conditions were determined through the effects of pH, temperature, enzyme concentration, and hydrolysis time on the radical scavenging activity of 1,1-diphenyl-2-picrylhydrazyl (DPPH). The optimal hydrolysis conditions for meat hydrolysate (MHA) obtained via Alcalase 2.4 L treatment were a pH of 6.0, temperature of 70 °C, enzyme concentration of 5% (w/w), and a hydrolysis time of 3 h. The optimal hydrolysis conditions for roe hydrolysate (RHC) obtained via Collupulin MG treatment were pH 9.0, 60 °C temperature, 5% (w/w) enzyme concentration, and 1 h hydrolysis time. Under the optimal conditions, the DPPH radical scavenging activities of MHA and RHC were 60.04 and 79.65%, respectively. These results provide fundamental data for the production of antioxidant peptides derived from sandfish hydrolysates.     

Physicochemical and sensory characteristics of soya protein isolate hydrolysates with added substrate‐like amino acids

Soya protein isolate (SPI) with or without added substrate‐like amino acid was subject to enzymatic hydrolysis catalysed by commercial proteases (Alcalase 2.4 L, flavourzyme and pancreatin). Addition of a small amount of amino acids (amino acid: SPI = 1: 2500, mol g^?1) during hydrolysis would cause a significantly (P < 0.05) reduced protein recovery, increased degree of hydrolysis, and altered amino acid composition and antioxidant activities of SPI hydrolysates. The SPI hydrolysates prepared with added Asp, Arg or Lys exhibited a higher antioxidant activity than the control. The bitterness of SPI hydrolysates was largely reduced upon addition of Met, Asp or Glu during hydrolysis, whilst the umami taste and mouthfeel‐liking were remarkably increased. Therefore, adding amino acid during hydrolysis is a feasible and beneficial approach to improve both the functional and sensory properties of SPI hydrolysate.