不同NaCl浓度条件下亚麻籽胶对肌原纤维蛋白凝胶作用力及乳化特性的影响

为改善低盐肉制品凝胶乳化品质的降低,明确亚麻籽胶（flaxseed gum,FG）添加对肉制品品质的影响,以肌原纤维蛋白（myofibrillar protein,MP）为研究对象,通过测定乳析指数、电位值、粒径、显微观察研究不同NaCl浓度条件下FG对MP乳液乳化稳定性的影响,而化学键的测定显示FG对MP凝胶化学作用力的影响。结果表明,形成MP凝胶及FG-MP凝胶体系的关键是二硫键和非二硫共价键的贡献;不同NaCl浓度对FG-MP乳液的乳析指数、ζ-电位、粒径的影响均不显著（P＞0.05）,而MP乳液随着NaCl浓度的提高,乳化稳定性、ζ-电位、粒径均显著变化（P＜0.05）。特别是在低浓度NaCl条件下,FG的加入可以显著提高MP乳液的稳定性（P＜0.05）。显微观察发现加入FG可以改善MP乳液液滴聚集的现象。因此,说明在低浓度NaCl条件下加入FG可以显著提高肌原纤维蛋白乳液的乳化稳定性,提高其抗盐能力,促进亚麻籽在肉制品中的应用。     

苦杏仁蛋白的功能特性

采用稀盐溶液浸提及等电点盐析相结合的方法提取制备苦杏仁蛋白,研究pH值、NaCl浓度、蛋白质量浓度和温度等因素对苦杏仁蛋白功能特性(溶解性、持水性、吸油性、乳化性及乳化稳定性、起泡性及起泡稳定性)的影响。结果表明：在等电点pI附近时,苦杏仁蛋白的溶解性、持水性、乳化性及乳化稳定性、起泡性最差;在较低NaCl浓度范围内(0～0.8mol/L)提高NaCl浓度可促进蛋白溶解性、乳化性及乳化稳定性、起泡性及起泡稳定性的提高,而较高的NaCl浓度对蛋白功能特性提高具有抑制作用;当蛋白质量浓度达到一定水平时(3～4g/100mL),蛋白功能特性(乳化性及乳化稳定性、起泡性及起泡稳定性)提高趋于平缓;在适宜的温度范围内,提高温度可有效提高苦杏仁蛋白各项功能特性,但当温度继续上升,各项功能特性持续降低。     

pH-dependent emulsifying properties of pea [Pisum sativum (L.)] proteins

Emulsifying properties of two partially purified legumin and vicilin (PL and PV) and protein isolate (PPI) from dry pea seeds at various pH values (3.0, 5.0, 7.0 and 9.0) were investigated. The tested emulsion characteristics included droplet size, flocculation and coalescence indices (FI and CI), creaming index, as well as interfacial protein adsorption. Some physicochemical properties of these proteins, e.g., free sulfhydryl and disulfide bond contents, protein solubility (PS), surface hydrophobicity (H_o) and thermal stability (and denaturation), were also characterized. The results indicated that emulsifying ability and emulsion stability of various pea proteins considerably varied with the preparation process, protein composition and pH. Overall, all the pea proteins exhibited least emulsifying ability at pH 5.0 (around isoelectric point), and concomitantly, the resultant emulsions were most unstable against coalescence and creaming. The emulsifying ability of these proteins at pH 3.0 was generally better than that at neutral or alkali pH values, and among all the three proteins, PL exhibited highest emulsifying ability at this pH. The flocculated state and size of droplets in fresh emulsions did not directly affect stability of these emulsions against flocculation and coalescence (upon 24 h of storage), and even creaming (up to 7 days). Interestingly, the PL and PV exhibited much better creaming stability than PPI, at pH deviating from the pI. The emulsifying properties of these proteins were not only related to their PS and H_o, but also associated with the protein adsorption and nature (e.g., viscoelasticity) of interfacial protein films. These results can greatly extend the knowledge for understanding the emulsifying properties of pea proteins, especially the pH dependence of emulsion characteristics.     

阿拉伯树胶-肌原纤维蛋白共建乳状液体系的物理稳定性

研究不同质量分数阿拉伯树胶(arabic gum,AG)对肌原纤维蛋白(myofibrillar protein,MP)为乳化剂的乳化体系稳定性的影响。结果显示,乳化活性和乳化稳定性随着AG质量分数的增加呈先增加后降低的变化趋势。AG质量分数为0.3%时,MP-AG共建乳状液体系表现出最高的物理稳定性,显著地增加了ζ-电势,降低了粒径大小,表现出最低的乳析指数(P0.05)。激光共聚焦显微镜(confocal laser scanning microscopy,CLSM)观察结果表明,与单独以MP为乳化剂的样品相比,添加0.3%AG的乳状液样品液滴颗粒最小,这与粒径大小和分布的结果相一致。通过CLSM进一步观察MP在界面上的吸附行为,结果表明,与未添加AG的乳状液样品相比,添加0.3%AG的MP-AG共建乳状液体系所形成的界面膜更加坚固和致密。总之,AG可以促进蛋白质在油水界面上的吸附作用,提高MP乳化的水包油型乳状液的物理稳定性。     

Improvement of emulsifying properties of milk proteins with κ or λ carrageenan: effect of pH and ionic strength

The objective of this work was to determine the effect of λ‐carrageenan or κ‐carrageenan on the emulsion capacity, emulsion work and emulsion stability of milk proteins concentrate (MP) or sodium caseinate (SC) emulsions at different levels of pH and ionic strength. Incorporation of carrageenans to proteins emulsions resulted in an improvement of emulsifying properties at pH 6.0 and low ionic strength (0.2 m NaCl). Although emulsion capacity was high in MP than for SC, irrespectively of carrageenan employed, addition of λ‐carrageenan increased twofold emulsion work values (15 327 Ω s^?1 for MP and 11 455 Ω s^?1 for SC; around 6000 Ω s^?1 in the other treatments). Emulsion stability was high with λ‐carrageenan (9.8 s) than MP‐κ‐carrageenan or MP (7.45 and 7.40 s, respectively). Carrageenan improving of emulsion properties was because of the complex formation with MP, characteristic of this type of food system when pH was above of isoelectric point.     

Stability of oil: Water emulsions of amaranth proteins. Effect of hydrolysis and pH

In this contribution we have determined the effect of limited enzymatic hydrolysis on the emulsifying capacity of amaranth proteins. The action of enzyme (alcalase and trypsin) and the pH of the continuous phase of the oil/water emulsion (pH 2.0, 6.3 and 8.0) were the variables analyzed. The results obtained show that amaranth protein isolates, AI, contain proteins species capable of forming and stabilizing emulsions, mainly at acidic pH (2.0) and to a lesser extent at pH 8.0. While the emulsions obtained are sensitive to creaming and flocculation, they do not undergo destabilization by coalescence. The emulsions prepared from proteins subjected to low grade trypsin hydrolysis (TH2.2) are sensitive to creaming - flocculation, whereas alcalase-hydrolyzed proteins (AH1.7 and AH9.5) exhibited a significant destabilization by creaming, flocculation and coalescence, mainly at pH 6.3. The effect of the pH of the aqueous phase was determining on the emulsion stability beside the structural and physicochemical characteristics of protein species utilized as tensioactive. At acidic pH (pH 2.0) the unfolding and charge of polypeptides and the capacity of form a viscoelastic film at the interface were essential while at alkaline pH (pH 8.0) the balance among high and low molecular mass protein species and flexibility of the molecule fixed the emulsions properties.     

蛋黄蛋白-植酸静电复合物对蛋黄乳液物理稳定性的影响

为改善蛋黄（egg yolk，EY）在酸性乳液体系的物理稳定性，采用EY蛋白与植酸（phytic acid，PA）形成静电复合物稳定EY乳液。研究酸性条件下PA质量分数（0%～0.8%）对EY蛋白及EY乳液物理稳定性的影响。结果表明，pH 3.0时，EY与0.012 5%～0.8% PA形成不溶性的静电复合物EY-PA；最优质量分数（0.2%）PA与含1%蛋白的EY形成复合物制备乳液较对照组的乳液黏度升高，粒径及乳析指数显著降低（P＜0.05），界面蛋白质吸附量显著提高（P＜0.05），乳滴分布更均匀，乳液的抗聚结效果提高。因此，EY蛋白与PA形成的静电复合物可调控EY乳液的理化特性，提高EY在酸性乳液体系的物理稳定性。     

不同冻结方式对猪肉肌原纤维蛋白乳化与凝胶特性的影响

分别采用空气冻结、浸渍冻结和超声辅助浸渍冻结(ultrasonic-assisted immersion freezing,UIF)猪肉背最长肌,提取肌原纤维蛋白(myofibrillar protein,MP)并分析其乳化活性与乳化稳定性、乳液粒径、流变特性、凝胶强度、蒸煮损失率、水分分布与微观形貌变化,研究不同冻结...     

超声处理大豆分离蛋白与壳聚糖复合物对O/W型乳液稳定性的影响

为探究超声处理大豆分离蛋白-壳聚糖（soybean protein isolate-chitosan,SPI-CS）复合物对形成O/W型乳 液性质的影响,主要研究了复合物表面疏水性、乳化活性、乳化稳定性与油-水界面张力、乳液粒径、乳液稳定性 之间的关系。结果表明：未经超声处理的SPI-CS复合物表面疏水性、乳化活性、乳化稳定性和界面吸附性较低,形 成的O/W型乳液粒径相对较大,约100 μm,乳液Zeta电位较低,乳滴有发生聚集的倾向。乳液贮存7 d后乳层析指数 最高。经超声处理后SPI-CS复合物形成的乳状液性质发生明显变化,随着超声功率的增加,形成的O/W型乳液的稳 定性有所增加：超声功率为400 W时SPI-CS复合物形成的乳液最为稳定,乳层析指数最低;当超声功率超过400 W 时,乳液的光学显微镜观察显示其粒径有所增大,同时乳液的Zeta电位、乳化活性和乳化稳定性明显下降,界面张 力降低缓慢。超声处理暴露了蛋白质分子的内部结构,使部分结构展开、柔性增加,促进了其与壳聚糖之间的静电 相互作用,说明超声处理的大豆分离蛋白与壳聚糖形成的复合物影响了O/W型乳液的稳定性及相关性质。     

天然和热处理大豆蛋白稳定乳液的性质研究

热处理(901、20℃)修饰的大豆分离蛋白用于制备水包油(O/W)乳液,并对天然和热处理蛋白乳液的粒径、微结构、絮凝率和分层稳定性进行表征。热处理蛋白的水力学半径随蛋白浓度和加热温度的增加而增加,证实了可溶性聚集体的产生。乳液粒径和分层稳定性受离子强度、聚集体粒径影响。低离子强度下(0 mmol/L),与天然蛋白相比,热处理蛋白乳液粒径较大,20 d放置后未发生分层。离子强度的增加(100mmol/L)导致天然蛋白乳液粒径明显增大;而热处理蛋白乳液则表现出较高耐盐性,体现在更小的粒径、絮凝率和分层指数。与90℃热处理相比1,20℃热处理减小了乳液液滴的粒径和絮凝。     

大米蛋白与阿魏酸酶法交联物的乳化特性和抗氧化稳定性

研究漆酶(laccase,LAC)催化大米蛋白(rice protein,RP)与阿魏酸(ferulic acid,FA)交联产物的乳化特性和抗氧化稳定性。发现RP乳液在pH 5和pH 3条件下出现了明显的相分离,RP乳液在pH 7和pH 9条件下有部分聚集状态,说明RP在酸性范围的乳化稳定性远远小于碱性范围的乳化稳定性;RP/FA/LAC酶法交联物乳液在pH 5、7、9条件下的乳液粒径和乳析层指数都小于RP乳液;在pH 3条件下乳液粒径和乳析层指数大于RP乳液;RP乳液中的氢过氧化物含量(11.12 mmol/kg)、硫代巴比妥酸反应产物(thiobarbituric acid reactive substances,TBARS)含量(0.73 mmol/kg)和己醛含量(0.986 mg/L)明显高于RP/FA/LAC酶法交联物乳液中氢过氧化物含量(3.59 mmol/kg)、TBARS含量(0.23 mmol/kg)和己醛含量(0.191 mg/L),表明RP/FA/LAC酶法交联物具有更好的抗氧化稳定性。研究结果显示LAC催化FA与RP形成的交联物在含有乳化体系等食品加工中具有潜在应用价值。     

芬顿氧化体系处理对白斑狗鱼肌原纤维蛋白结构和功能特性的影响

研究芬顿氧化体系诱导的不同氧化水平(0、1、5、10、20?mmol/L?H2O2)对白斑狗鱼肌原纤维蛋白结构和功能特性的影响.随着氧化水平的升高,肌原纤维蛋白的羰基和浊度增加、溶解度显著降低(P<0.05).十二烷基硫酸钠-聚丙烯酰胺凝胶电泳分析结果显示氧化后的肌原纤维蛋白中产生更多交联和蛋白质聚合.傅里叶变换红外光...     

三聚磷酸钠对猪肉肌原纤维蛋白功能特性的影响

以猪肉肌原纤维蛋白（myofibril protein,MP）为研究对象,探讨不同质量浓度三聚磷酸钠（sodium tripolyphosphate,STP）的添加对MP乳化性、乳化稳定性、起泡性等7 个功能特性指标的影响,并进行相关性分析。结果表明：随着STP质量浓度升高,MP的乳化性、乳化稳定性、起泡性、起泡稳定性、凝胶强度和凝胶保水性均呈上升趋势,表面疏水性呈下降趋势;MP的起泡性和凝胶强度在STP质量浓度为0.3 g/100 mL时最大,乳化性、表面疏水性和凝胶保水性在STP质量浓度为0.4 g/100 mL时效果最佳;MP的起泡性、起泡稳定性和乳化性呈极显著正相关（P＜0.01）,乳化性与乳化稳定性呈显著正相关（P＜0.05）,乳化性、乳化稳定性、起泡性、起泡稳定性与表面疏水性呈极显著负相关（P＜0.01）,与凝胶保水性呈极显著正相关（P＜0.01）,表面疏水性与凝胶保水性呈极显著负相关（P＜0.01）,表面疏水性与凝胶强度呈极显著正相关（P＜0.01）。STP可以增强MP的功能特性,其质量浓度为0.3～0.4 g/100 mL时效果最佳。改善乳化性、起泡性和表面疏水性等界面性质可以增强MP的凝胶特性。     

低钠条件下超声处理对鸡肉肌原纤维蛋白乳液稳定性的影响

低钠条件下肌原纤维蛋白（myofibrillar protein,MP）作为乳化剂制备的乳液稳定性差,本实验采用高强度超声波（high intensity ultrasound,HIU）（频率20 kHz、功率450 W）对低钠条件下（0.15 mol/L NaCl）MP进行不同时间（0、3、6、9、12 min）处理,测定处理后MP乳液乳化活性指数（emulsifying activity index,EAI）、乳液稳定性指数（emulsion stability index,ESI）、Turbiscan稳定性指数（turbiscan stability index,TSI）和平均粒径等,并进行微观结构观察和流变性分析等,研究低钠条件下超声处理对鸡肉MP乳化特性及其乳液稳定性和流变性能的影响。结果表明：与对照组相比,随着超声处理时间延长,MP的EAI和ESI显著增加（P＜0.05）,MP制备乳液的TSI和粒径随着超声处理时间的延长明显减小,且乳液液滴分布均匀,乳液Zeta-电位的绝对值显著增加（P＜0.05）。乳液的流变学特性分析结果表明超声波明显提高了MP乳液的黏弹性。MP乳液的油-水界面张力分析结果显示超声处理有效增强了MP的移动性,使界面张力迅速降低,同时超声处理显著增加了MP乳液吸附蛋白相对含量（P＜0.05）,这表明超声处理MP有助于稳定乳液。通过冷场扫描电子显微镜观察进一步证实了超声处理12 min MP制备的乳液液滴体积最小。综上,超声波能够有效提高低钠条件下MP的乳液稳定性,本实验可为超声处理在减盐乳化型肉制品中的应用提供理论参考。     

Emulsifying properties of the transglutaminase-treated crosslinked product between peanut protein and fish (Decapterus maruadsi) protein hydrolysates

BACKGROUND: Defatted peanut meal, a protein‐rich by‐product from the oil extraction industry, is underutilised owing to its inferior functional properties. In this study, transglutaminase (TGase) crosslinking and proteolysis were used to improve the emulsifying properties of peanut protein isolate (PPI) extracted from the meal. PPI and PPI hydrolysate (PPIH) were conjugated separately with fish (Decapterus maruadsi) protein hydrolysate (DPH), catalysed by TGase to obtain improvements in the emulsifying properties. RESULTS: Analyses by electrophoresis and high‐performance liquid chromatography indicated that polymers were formed in all TGase‐treated samples. In emulsions of PPIH, PPI‐DPH and PPIH‐DPH the volume/surface average particle diameter (d₃₂), creaming and instability phenomenon were decreased and the zeta‐potential was increased after TGase treatment, showing improved emulsifying activity and emulsion stability. In the case of PPI, TGase treatment had no effect on the emulsifying activity, but the emulsion stability of TGase‐treated PPI was improved. CONCLUSION: The study showed that TGase crosslinking and proteolysis could improve the emulsifying properties of PPI, while proteolysis followed by TGase crosslinking proved more efficient. The emulsifying properties of the heterologous protein systems of PPI‐DPH and PPIH‐DPH were also improved by TGase treatment. Copyright © 2010 Society of Chemical Industry     

大豆分离蛋白乳化性的研究

采用蛋白质乳化容量电导法,对不同浓度、ＰＨ和酶水解条件下大豆分离蛋白乳化容量和乳化稳定性进行测定,结果表明：大豆蛋白的乳化性在低密度时随浓度上升而增加,浓度达到６％以后趋于稳定;等电点时（ＰＨ４．５）,乳化性最差,偏离等电点后尤其在偏碱性条件下,乳化性明显增加,酶水解后,乳化性变化产大,水解度１７％时,乳化性最佳。     

Emulsifying properties of canola and flaxseed protein isolates produced by isoelectric precipitation and salt extraction

The emulsifying (emulsion capacity, EC; emulsion activity/stability indices, EAI–ESI and creaming stability, CS) and physicochemical properties (surface charge/hydrophobicity, protein solubility, interfacial tension, and droplet size) of chickpea (ChPI), faba bean (FbPI), lentil (LPI), and pea (PPI) protein isolates produced by isoelectric precipitation and salt extraction were investigated relative to each other and a soy protein isolate (SPI). Both the legume source and method of isolate production showed significant effects on the emulsifying and physicochemical properties of the proteins tested. All legume proteins carried a net negative charge at neutral pH, and had surface hydrophobicity values ranging between 53.0 and 84.8 (H₀-ANS), with PPI showing the highest value. Isoelectric precipitation resulted in isolates with higher surface charge and solubility compared to those produced via salt extraction. The EC values ranged between 476 and 542 g oil/g protein with LPI showing the highest capacity. Isoelectric-precipitated ChPI and LPI had relatively high surface charges (~−22.3 mV) and formed emulsions with smaller droplet sizes (~ 1.6 μm), they also displayed high EAI (~ 46.2 m²/g), ESI (~ 84.9 min) and CS (98.6%) results, which were comparable to the SPI.     

Physico-Chemical Properties of the Flour, Protein Concentrate, and Protein Isolate of the Cupuassu (Theobroma grandiflorum Schum) Seed

ABSTRACT:  Defatted flour, protein concentrate, and protein isolate obtained from Amazonian cupuassu seeds were evaluated for their solubility properties, water and oil retention capacity, foam formation and stability, gelling properties, emulsifying ability, and emulsion stability. The protein contents of defatted flour, the concentrate, and the isolate were 27.65%, 31.18%, and 64.29%, respectively. As expected, the protein isolate exhibited higher solubility than the protein concentrate, achieving more than 90% solubility at pH 8.0. The flour and the protein concentrate, however, showed excellent water and oil retention capacities. High emulsifying capacity at pH 7.0 was also observed for all 3 products: 987 mL oil/g, 977 mL oil/g, and 1380 mL oil/g for the flour, protein concentrate, and protein isolate, respectively. Gelling properties were not exhibited by any of the products, but all of them exhibited good utilization potential, not only to enrich other foods but also to enhance relevant functional properties.     

丙二醛氧化修饰对核桃分离蛋白乳化性质的影响

以不同浓度(0~10 mmol/L)的丙二醛氧化处理的核桃分离蛋白为研究对象,探究脂肪氧合酶(LOX)诱导多不饱和脂肪酸发生脂质过氧化反应过程中产生的活性醛类对核桃分离蛋白乳化性质的影响。研究结果表明:随着丙二醛浓度从0增至10 mmol/L,核桃分离蛋白发生显著氧化,羰基值从3.12 nmol/mg增至20.61 nmol/mg;表面疏水性呈现先上升后下降的趋势;乳液内源荧光强从419.97降至109.86,最大吸收波长λmax发生蓝移;乳液粒径和乳析率均呈现先减小后增大的趋势;乳液Zeta电位值和乳化稳定性则呈现先增加后减小的趋势;而乳化活性从46.57 m^2/g降至26.26 m^2/g。当丙二醛浓度为0.1 mmol/L时,核桃分离蛋白乳液粒径和乳析率达到最小值,Zeta电位值和乳化稳定性达到最大值,说明适度的丙二醛氧化使得核桃分离蛋白的乳液更加稳定,而氧化对蛋白质乳化活性产生负面影响。     

pH值碱性偏移结合热处理对米糠蛋白结构和功能性质的影响

研究pH值碱性偏移（pH 11）结合热处理（50、60 ℃）对米糠蛋白结构和功能性质的影响。结果表明,pH值碱性偏移促使米糠蛋白二级结构由有序向无序转化,pH值碱性偏移结合热处理使得米糠蛋白二级结构呈现折叠-去折叠-复折叠的复杂变化,并伴随巯基氧化。pH值碱性偏移促使米糠蛋白展开,随着处理时间的延长,米糠蛋白重新聚集,热处理会加剧聚集程度。pH值碱性偏移使得米糠蛋白持水性、起泡性、泡沫稳定性、乳化性和乳化稳定性显著下降,仅持油性显著改善;随着处理时间的延长,米糠蛋白持水性、起泡性、乳化性和乳化稳定性逐渐上升,其中乳化性上升幅度最大。pH值碱性偏移结合热处理可显著改善米糠蛋白的持水性、起泡性、泡沫稳定性和乳化稳定性,同时也会降低米糠蛋白的持油性和乳化性。