Emulsifying property,antioxidant activity,and bitterness of soybean protein isolate hydrolysate obtained by Corolase PP under high hydrostatic pressure

Enzymatic hydrolysis of proteins can enhance their emulsifying properties and antioxidant activities.However,the problem related to the hydrolysis of proteins was the generation of the bitter taste.Recently,high hydrostatic pressure(HHP)treatment has attracted much interest and has been used in several studies on protein modification.Hence,the study aimed to investigate the effects of enzymatic hydrolysis by Corolase PP under different pressure treatments(0.1,100,200,and 300 MPa for 1-5 h at 50℃)on the emulsifying property,antioxidant activity,and bitterness of soybean protein isolate hydrolysate(SPIH).As observed,the hydrolysate obtained at 200 MPa for 4 h had the highest emulsifying activity index(47.49 m^(2)/g)and emulsifying stability index(92.98%),and it had higher antioxidant activities(44.77%DPPH free radical scavenging activity,31.12%superoxide anion radical scavenging activity,and 61.50%copper ion chelating activity).At the same time,the enhancement of emulsion stability was related to the increase of zeta potential and the decrease of mean particle size.In addition,the hydrolysate obtained at 200 MPa for 4 h had a lower bitterness value and showed better palatability.This study has a broad application prospect in developing food ingredients and healthy foods.

Establishment of two-dimensional gel electrophoresis for soybean protein isolate and its application

To optimize the conditions for the establishment of two-dimensional gel electrophoresis(2-DE)of soybean protein isolate(SPI),we investigated Ampholine mixture,anodic and cathodic electrolytes,loading amount of sample,acrylamide concentration,p H gradient and gel staining method in twodimensional gel electrophoresis to optimize the protein imaging conditions in two-dimensional gel.The results of mixed-level design experiments showed that Ampholine,loading amount and gel staining method had significant effect(P<0.05)on 2-DE of SPI.The optimal conditions were Ampholine mixture(pH 3–10+pH 5–7 or pH 4–6+pH 5–7),loading amount of 2 mg sample and silver staining.Although the acrylamide concentration of the gel,the p H gradient,the anodic and cathodic electrolyte solutions had significant statistical effects on the protein separation degree,the complexity of the protein composition and the visibility of the gel images were more inclined to the 12%gel,the 3–10 pH gradient and the H3PO4/NaOH electrolyte.According to the established conditions,the hydrolyzed products of SPI emulsion were determined by 2-DE,and the dynamic changes of protein in the process of enzymatic hydrolysis were described.

Comparison of Interfacial and Foaming Properties of Soy and Whey Protein Isolates

A comparative study on the foaming properties and behavior at the air-water interface of soy and whey protein isolates were made, Foams were obtained by the method of gas bubbling. The initial rate of passage of liquid to the foam （vi） and the maximum volume of liquid incorporated to the foam （VLEmax） were determined. The destabilization process of the formed foams was analyzed by a biphasic second order equation. Measurements of equilibrium surface tension （water/air） and surface rheological properties were carried out in a dynamic drop tensiometer. The foaming capacity （vi and VLEmax） and the stability of foams prepared with the whey protein isolates （WPI） were better than those formulated with the soy protein isolates （SPI）. WPI foams were more stable showing the lower values of rate constants of gravity drainage and disproportion. There were significant differences （P 〈 0.05） in the dilatational modulus in the surface rheology measurements, which were higher at the interface with WPI, implying greater resistance of the film formed to collapse and disproportion. In conclusion, WPI formed better and more stable foams than the SPI.

SPI基茶多酚纳米复合物的制备及其分子间相互作用研究

大豆分离蛋白(soybean protein isolated,SPI)因其功能和营养价值被认为是一种广泛应用于食品工业的植物蛋白。然而,天然蛋白的功能有限,可对SPI的结构进行改性,以作为活性物质的优良载体。本研究利用Maillard反应,用葡萄糖(glucose,Glu)和SPI制备了糖基化大豆分离蛋白(GSPI)。使用SPI和GSPI负载茶多酚(tea polyphenols,TP),得到负载TP的SPI纳米复合物(S-T)和负载TP的糖基化大豆分离蛋白纳米复合物(GS-T)。探讨了Glu对GSPI的影响,并进一步探讨了TP与SPI和GSPI的相互作用。相比于S-T,GS-T平均粒径更小,稳定性较好,且表现出良好的抗氧化活性。分子间相互作用结果显示,GS-T可能是通过疏水相互作用形成的,且可能增加蛋白的溶解性。总之,GSPI有希望成为功能食品、饮料和医药产品中TP类物质的一种新型有效的载体材料。

Effects of the addition of edible polysaccharides on the properties of soybean protein isolate gels

The gel properties of soybean isolate protein(SPI)gels are susceptible to the influence of other components in food products,particularly edible polysaccharides.Therefore,six common edible polysaccharides were selected in this study to investigate their effects on the rheological properties,thermal properties,and microstructure of acid-induced soybean isolate protein self-assembled gels(SPIASG).The experimental results showed that the support capacity and creep recovery of SPIASG with added polysaccharides were higher than those of the control group without added polysaccharides,and the gel with Xanthan gum(XG)was the most effective.The hybrid gel,with added Condensed resin(CR),Xanthan gum(XG),Carrageenan(CA),and CMC formed a stronger network structure.Additionally,compared with SPIASG,the hybrid gel with added edible polysaccharides the water-holding capacity of SPI hybrid gels was relatively improved.In this study,a simple and easy method was obtained to significantly improve the gel properties of SPIASG,analyzed and compared the effectiveness of various polysaccharides to enhance its gel properties,and provided some ideas to improve the gel properties of SPI protein gels.

制备条件和测定方法对SPI凝胶特性测定结果的影响

对影响大豆分离蛋白凝胶的形成因素进行了研究。蛋白质浓度、pH、温度和加热时间对所形成凝胶的质构特性都有较大的影响。在形成凝胶的最佳条件下制备凝胶,采用物性仪和一种简易的测定凝胶脆度的方法对几种不同大豆分离蛋白制备的凝胶的脆度进行测定,结果表明,两种方法测定结果无显著性差异,说明这种简易的测定方法可用于评价大豆分离蛋白的凝胶特性。

HPAN/SPI水凝胶纤维的pH刺激响应性能

探索了聚丙烯腈(PAN)和大豆分离蛋白(SPI)在NaOH水溶液中进行PAN碱解,然后挤到凝固浴中凝固、交联,制备水解聚丙烯腈(HPAN)/SPI水凝胶纤维的方法。通过测定凝胶纤维的平衡溶胀伸长率和溶胀伸长率,观察到HPAN/SPI水凝胶纤维的滞后和可逆的伸长/收缩行为,同时在不同组成的凝胶纤维中,随着PAN含量的逐渐增大,水凝胶纤维的响应速率呈现由小到大然后减小的变化规律,当 mPAN /mSPI =6/4时有最好的响应性能。

超声物理改性对SPI功能特性的影响

采用超声仪对大豆分离蛋白(SPI)溶液进行超声处理,研究了不同超声处理时间,不同功率处理后SPI功能特性的变化。结果表明,超声处理后大豆分离蛋白的溶解性、起泡性、乳化性和凝胶性都有明显的提高。

SPI凝胶颗粒制备及其Pickering高内相乳液特性研究

制备了大豆分离蛋白(Soy protein isolate,SPI)凝胶颗粒,并使用该颗粒制备了稳定的Pickering高内相乳液。通过粒径和ζ-电位测定、冷冻扫描电镜和光学显微镜观察以及外观分析,以流变特性为指标,对SPI凝胶颗粒和Pickering高内相乳液特性进行研究。结果表明,SPI凝胶颗粒的粒径和ζ-电位随pH值的变化而变化,当SPI凝胶颗粒pH值为4.0~5.0时,临近SPI等电点,ζ-电位的绝对值最小,此时凝胶颗粒相互聚集,不能成功制备稳定的高内相乳液。在pH值为9.0时,大豆分离蛋白凝胶颗粒紧密结合在一起,呈凝胶网络状结构。在碱性条件下,蛋白质质量分数为1.00%、内相体积分数为78%~82%时,可以制备稳定的Pickering高内相乳液。通过增加内相体积分数,使大豆分离蛋白凝胶颗粒稳定的Pickering乳液体系分布更加均匀,不易发生聚集,形成更加致密稳定的多孔结构,且具有更强的弹性凝胶乳液特性。

不同杀菌处理方式对SPI冻藏过程中理化特性的影响

为了研究不同杀菌条件对SPI理化特性的影响及相应SPI溶液冷冻条件下的物化性质变化,通过65℃、90℃和UHT不同杀菌处理所得SPI(分别记为65SPI、90SPI和USPI)制备相应蛋白溶液,经-18℃冻藏后,对其理化特性进行分析研究。试验结果表明:3种杀菌处理均造成了SPI一定程度的变性,与冻前未处理SPI相比,90SPI和65SPI溶液的可溶蛋白含量和表面巯基显著降低,粘度、粒径大幅增加,USPI则未有明显变化。此外,90SPI和USPI的疏水基团暴露程度较高,非还原电泳显示其AB亚基发生解离;不同杀菌处理SPI其溶液在冻藏期间内,随冻藏时间延长,蛋白溶解度、粘度、表面巯基和总巯基数量呈下降趋势,粒径和疏水基团暴露程度增加。冻藏后蛋白电泳图谱显示,65SPI和90SPI通过二硫键形成了分子量较大的可溶性聚集体。

大分子拥挤体系下葡聚糖对SPI的共价修饰

为探讨糖链对蛋白质的共价修饰作用,在大分子拥挤体系中通过Maillard反应制备了大豆分离蛋白(SPI)-葡聚糖共价复合物(SDC),通过十二烷基磺酸钠-聚丙烯酰胺凝胶电泳、荧光光谱、凝胶渗透色谱、圆二色光谱等方法研究了葡聚糖共价键入后对SPI功能和构象的影响.结果表明,大豆分离蛋白和葡聚糖发生共价结合;Maillard反应的适宜条件为SPI/葡聚糖质量比1∶1,温度60℃、反应时间30 h;在大分子拥挤体系中,与未经Maillard反应的SPI/葡聚糖混合物相比,SDC表面的疏水基团减少,乳化活性较高;与SPI相比,SDC的热稳定性提高;糖链的键入使SPI的结构发生了变化,柔韧性有所增加,更有利于发挥其功能.

大豆分离蛋白(SPI)乳化稳定性的研究

将有限酶解和Na2SO3预还原处理有机结合起来,对大豆分离蛋白进行改性,以研究中性环境中改性对大豆分离蛋白乳化稳定性的影响。由此确定改性条件,为调配型中性豆奶的研制奠定了基础。

逐因子试验与Taguchi OA设计在SPI酶解条件优化中的应用

运用逐因子试验和Taguchi OA设计对大豆分离蛋白(soybean protein isolated,SPI)酶解条件进行了优化研究,逐因子试验研究发现,在80℃预处理15min有利于酶解,在4%[S]、[E]/[S]=4000U/gSPI、50℃和4.5h时,酶解较好。在逐因子试验基础上,应用TaguchiOA设计并结合方差统计分析获得了最佳酶解条件,即5%SPI、5000U.g-1SPI、55℃、4.5h。模型预测水解度为26.56%,验证试验时,实际水解度为23.8±0.024%(n=3)。

SPI-HNTs纳米复合凝胶材料的流变行为与次级网络

以大豆分离蛋白质为反应原料,戊二醛为交联剂,与不同添加量的埃洛石复合,合成制备出弹性模量达219Pa的SPI-HNTs纳米复合凝胶材料。采用模块化智能型高级流变仪证实了埃洛石与大豆分离蛋白形成的次级网络的存在,通过对比不同埃洛石添加量对SPI-HNTs纳米复合凝胶材料流变性能的影响,发现埃洛石与大豆分离蛋白质形成的次级交联网络对纳米复合凝胶的弹性模量和损耗角正切的影响规律,通过与合成的无化学交联剂的SPI-HNTs纳米复合物对比和FT-IR分析,揭示了埃洛石与大豆分离蛋白质间的次级网络对凝胶材料的增强机理。并且探讨了不同戊二醛添加量对SPI-HNTs纳米复合凝胶材料的弹性模量和损耗角正切的变化规律。

干燥温度对SPI/CMC复合膜中硬脂酸结合形态的影响

研究干燥温度（30、60、90和120℃）对大豆分离蛋白／羧甲基纤维素／硬脂酸（SPI／CMC／SA）复合膜中硬脂酸分布和结合形态的影响。结果显示，硬脂酸以结合态和自由态2种形态存在于复合膜中，随着干燥温度提高，复合膜中结合态硬脂酸的比例提高。当干燥温度为90℃时，复合膜的红外光谱图不再显示硬脂酸的典型羰基基团吸收峰（1712cm-1）；复合膜的热失重图谱中不再显示硬脂酸的主要热降解现象（210～280℃）。因此在干燥温度为90℃时，硬脂酸与其他分子间紧密结合，分子间相互作用力提高。

组合蛋白酶对SPI改性的研究

用组合蛋白酶对大豆分离蛋白(SPI)进行有限水解,所得水解液不苦,并具良好的风味。改性后的大豆分离蛋白的氮溶指数由未水解的82提高到95,20℃时的溶解度在25%以上。经正交试验得到的大豆分离蛋白水解的最佳工艺参数为:加酶量0.55%(W/W),固液比1:8(W/W),酶解时间60min。

SPI与SPH及其复配产物对面团特性和面条品质的影响机制

为提高面制品的营养品质,研究并比较了添加大豆分离蛋白(soy protein isolate,SPI)、大豆水解蛋白(soy protein hydrolyzates,SPH,水解度为4.54%)以及SPI和SPH复配产物(SPI-SPH)的混合粉的面筋特性和粉质特性,面团的动态流变学特性、蛋白质组分、二硫键和非共价键变化,以及面条的品质变化。添加SPI后面粉的湿面筋含量升高,干面筋含量下降,面筋指数降低,粉质特性评价值升高;面团的醇溶蛋白和麦谷蛋白含量增加,黏弹性增大,弹性比例增加。添加SPI-SPH的面粉面筋特性和面团特性变化趋势与添加SPI的面粉一致,其粉质特性评价值增大。添加SPH的面粉中无面筋洗出,粉质特性评价值升高;面团盐溶蛋白含量显著增加(P<0.05),弹性比例降低。添加大豆蛋白的面团中二硫键含量均增加,疏水相互作用减弱,氢键增强。与原面粉面条相比,SPI面条的硬度增大10.82%,SPI-SPH和SPH面条的弹性分别减小7.23%和6.02%,且添加SPH后面条的蛋白质保留率由93.02%降至87.31%。研究表明,大豆蛋白与面筋蛋白通过二硫键交联以及非共价键相互作用,阻碍面筋网络形成,破坏了面筋网络的连续性。并且,SPI和SPH复配在一定程度上减弱了SPH对面筋的弱化作用。

SPI/HA/CMC三元复合膜的制备及其性能研究

以甘油为增塑剂,通过溶液共混法制备大豆分离蛋白/透明质酸/羧甲基纤维素钠三元复合膜,并采用SEM、UV-Vis、拉伸试验等手段对其微结构和性能进行了研究。结果表明：当SPI含量在40%~50%时,复合膜的力学强度最大,SPI的引入能够提高复合膜表面的疏水性,同时透光率也会降低。当SPI含量较低时,水蒸气透过率较低,当SPI含量超过50%时,水蒸气透过率显著增加。该复合膜以天然高分子为基质,具备良好的力学性能、耐水性、阻隔性,有望应用于食品包装领域。

不同粉碎粒度对大豆分离蛋白(SPI)及棉粕分离蛋白(CPI)提取率的影响

采用传统的碱溶酸沉法提取了大豆粕及棉籽粕中大豆分离蛋白(SPI)及棉粕分离蛋白(CPI),并分别测定了棉籽粕,60目棉粕分离蛋白和80目棉粕分离蛋白中游离棉酚的含量,结果显示,60目及80目大豆粕中大豆分离蛋白的提取率分别为39.82%和44.95%(P<0.05),粗蛋白含量分别为81.07%和71.35%;60目及80目棉籽粕中棉粕分离蛋白的提取率分别为23.22%和35.39%(P<0.05),粗蛋白含量分别为76.03%和82.44%;棉籽粕、60目棉粕分离蛋白及80目棉粕分离蛋白中游离棉酚的含量分别为2182.54、522.79和503.87mg/kg(P<0.01)。综上所述,不同的粉碎粒度对大豆分离蛋白和棉粕分离蛋白的提取率有显著的影响,碱溶酸沉法显著降低了棉粕分离蛋白中游离棉酚的含量。

CMC-CSPI二元增强体系在废纸造纸中的应用研究

讨探了自制阳离子大豆分离蛋白(CSPI)与羧甲基纤维(CMC)作为旧报纸脱墨浆纸张增强剂的协同应用效果。通过控制CMC与CSPI加入方式、用量等考察CMC-CSPI二元增强体系对纸张物理性能的影响。结果表明,CMC-CSPI二元增强体系以混合的方式加入,CMC用量为0.5%,CSPI用量为2.5%(均相对绝干浆),增强效果比单独使用CMC或CSPI效果都好;对浆料滤水性能、细小组分留着率的改善效果优于CMC,但不如CSPI的改善效果。