猪肉丸主要原料对其凝胶性质和感官品质的影响

研究主要原料玉米淀粉、大豆分离蛋白、肥肉、水,在不同添加量时,对猪肉丸凝胶性质中硬度、弹性、黏聚性、咀爵性、蒸煮损失率和感官品质的影响.通过质构分析和感官评价,结果表明:玉米淀粉的不同添加量对猪肉丸的硬度、弹性、黏聚性、咀嚼性、蒸煮损失率有显著差异,在添加量22％时感官评分最高;大豆分离蛋白的不同添加量对猪肉丸的硬度、弹性、咀嚼性、蒸煮损失率有显著差异,在添加量为2.0％时感官评分最高;肥肉的不同添加量对猪肉丸的硬度、咀嚼性、蒸煮损失率有显著差异,在添加量30％时感官评分最高;在水的不同添加量对猪肉丸硬度、黏聚性、咀嚼性、蒸煮损失率有显著差异,在添加量35％时感官评分最高.     

添加豆浆对牦牛酸奶品质的影响

将不同添加量（0、20%、40%、60%）豆浆添加到牦牛乳中制备豆浆-牦牛酸奶,探讨不同添加量豆浆对牦牛酸奶理化指标、贮藏期内酸度、质构特性（硬度、稠度、黏聚性与黏性指数）、持水力、乳酸菌数和感官特性的影响。结果表明,在贮藏期内（1～14 d）,随着豆浆添加量在0～60%范围内增加,牦牛酸奶酸度、持水力、质构特性、乳酸菌数均有所下降。添加20%豆浆制备的牦牛酸奶蛋白质、脂肪及非脂乳固体含量分别为3.28 g/100 g、4.58 g/100 g、8.76 g/100 g,乳酸菌数＞107 CFU/mL,感官评分为87.9分,其酸度、持水力、质构、乳酸菌数等与未添加豆浆的对照相比均无显著差异（P＞0.05）。因此,在牦牛乳中添加20%的豆浆制备豆浆-牦牛酸奶是可行的,可进一步推广应用。     

pH值、NaCl浓度和加热温度对猪肉匀浆物凝胶质构特性的影响

采用二次通用旋转试验设计,研究了pH值、NaCl浓度和加热温度对猪后腿肉匀浆物热诱导凝胶质构特性的影响。结果表明:不同处理条件对凝胶质构特性的影响存在差异。不同加热温度下,pH值和NaCl浓度对凝胶硬度、弹性、内聚性、胶粘性和咀嚼性影响的总体趋势一致且两者存在明显的交互作用。pH值较低时,随着NaCl浓度的增加,凝胶的硬度、弹性、内聚性、胶粘性和咀嚼性均增大;pH值较高时,NaCl浓度对凝胶硬度、弹性和胶粘性影响较小,内聚性随着NaCl浓度增加而降低。同时,随着加热温度的升高,凝胶的硬度和胶粘性增大,内聚性和咀嚼性减小,而凝胶弹性变化较小。     

Effect of full-fat soy paste and textured soy granules on quality and shelf-life of goat meat nuggets in frozen storage

Goat meat nuggets were prepared using commercially available textured soy granules and reduced beany flavour full-fat soy paste (FFSP) made by simple processing technology to compare the performance of these proteins in a comminuted meat system. Addition of soy proteins (soy paste and soy granules) did not significantly affect the product yield, pH, moisture and fat percentage whereas protein content and water holding capacity (% expressible water) were significantly (p>0.05) lower in nuggets with 15% soy paste. Lower force was required to compress or shear the sample as hardness, springiness, gumminess and chewiness decreased in soy paste incorporated nuggets. Soy proteins either paste or granules, did not affect sensory attributes except flavour and overall acceptability. Nuggets with soy paste and control ones did not differ significantly for flavour and overall acceptability whereas nuggets with soy granules were rated significantly (p>0.05) lower. The nuggets remained stable with minor changes in physico-chemical, microbiological and sensory quality during frozen storage (-18±1°C) for 90days. It is concluded from this study that FFSP could be successfully incorporated in comminuted meat systems for producing quality products similar to commercially available soy granules.     

甘薯淀粉对山药凝胶肠理化特性的影响

为研究甘薯淀粉对山药凝胶肠理化特性的影响,对不同甘薯淀粉添加量下山药凝胶肠的质构特性、色度、热特性、水分状态、微观结构以及结晶特性进行了测试。结果表明：甘薯淀粉的添加显著增强了山药凝胶肠的硬度、胶着性、咀嚼性、内聚性和回复性,但黏性、弹性和白度下降;当甘薯淀粉添加量达到20%时,凝胶肠硬度达到7 060.65 g,胶着性为5 263.38 g,咀嚼性为4 623.80 g,内聚性为0.75,回复性为0.42,接近市售火腿肠的质地。甘薯淀粉的添加降低了山药凝胶肠的含水量和水分子的自由度,导致淀粉分子运动受限从而使相对结晶度和回生焓降低,凝胶肠质地更为致密。     

燕麦β-葡聚糖对大豆分离蛋白酸致凝胶物理性质影响的研究

采用乳酸菌发酵法对大豆分离蛋白/燕麦β-葡聚糖混合体系酸致凝胶的物理性质进行研究,将不同分子量燕麦β-葡聚糖添加到大豆分离蛋白中,探讨燕麦β-葡聚糖浓度和分子量对SPI凝胶的脱水收缩作用、质构特性和持水性的影响。结果表明:保加利亚乳杆菌发酵产酸速率较快,并且对混合凝胶性质的影响优于嗜热链球菌和嗜酸乳杆菌,为最佳发酵菌种。较高浓度或高分子量燕麦β-葡聚糖能降低SPI凝胶的脱水收缩作用,即减少乳清的析出;随着燕麦β-葡聚糖浓度的增加,SPI凝胶硬度和持水性呈下降趋势,而弹性和内聚性先增加后降低;高分子量的燕麦β-葡聚糖能够改善SPI凝胶的质构特性,并且增加凝胶的持水性。     

鸡肉火腿肠添加物对质构的影响

采用质构剖面分析法(texture profile analysis,TPA)及感官评定,探讨了脂肪、淀粉、焦磷酸钠和大豆分离蛋白对鸡肉火腿肠质构的影响。结果表明:当鸡肉火腿肠的配方为脂肪10%、淀粉4%、焦磷酸钠0.4%、大豆分离蛋白1.5%时,鸡肉火腿肠的质构特性较好,其硬度为1488.11g、弹性0.9、内聚性0.73、恢复性0.28。其中脂肪含量对火腿肠的硬度、内聚性和恢复性影响最大(R分别为335.49、0.033和0.32),而焦磷酸钠添加量对鸡肉火腿肠的弹性影响最大(R为0.046)。通过感官评定与机械测定之间的相关分析,发现机械硬度-感官硬度、机械恢复性-感官恢复性和机械硬度-感官总体接受性相关性极其显著。     

Chemical, physical, and sensorial characteristics of "Terrincho" ewe cheese: changes during ripening and intravarietal comparison

The objectives of this study were to monitor the changes in chemical [moisture, acidity, pH, and water activity (a(w))] and physical (color and texture) parameters of "Terrincho" ewe cheese during 60 d of ripening, and to determine the correlations between the changes in instrumental texture and color parameters and the ripening time of the product. Intravarietal comparison of Terrincho ewe cheese from 5 different dairy plants was performed by evaluation of mechanical parameters from texture profile analysis (TPA) and color parameters in terms of CIELAB color space (L*, a*, and b*). In addition to mechanical and color tests, composition analyses and sensory tests were performed. The results were evaluated with statistical methods (single valued and multivariate analysis). During the first 20 d of ripening, an increase in hardness, fracturability, gumminess, chewiness, and yellowness occurred. Simultaneously, adhesiveness, resilience, L* (inside cheese, "i" and external "e"), and cohesiveness decreased. After 20 d of ripening hardness, fracturability, gumminess, and chewiness decreased and cohesiveness increased. The ripening time of Terrincho cheeses can be estimated with 6 variables: L* (external, e), L* (i), b* (inside cheese, i), hardness, a* (i), chewiness, and a constant. The estimation error was 4.2 d. Evaluation of composition, pH, texture profile analyses, color, and related sensory characteristics of Terrincho cheeses from 5 different dairy plants (with 30 d of ripening) revealed correlations between these parameters.     

TEXTURE PROFILE OF IRRADIATED MANGOES AND PEACHES*

The mechanical characteristics of the texture profile of Kent mango and Loring, Redskin and Suwannee peach fruits were determined. Irradiation at 150 or 300 krad as well as storage at 20°C decreased all of the measured parameters with the exception of mango cohesiveness which increased during storage. Hardness, gumminess and chewiness of irradiated Loring peaches reflected the sensory hardness ratings to a greater extent than did the puncture or shear forces.     

Gel Textural Characteristics of Corn,Cassava and Yam Starch Blends: A Mixture Surface Response Methodology Approach

Blends of native starches can be used to obtain special sensory properties avoiding the use of chemically modified starches. The mixture design approach was used to analyze the textural properties (hardness, adhesiveness, cohesiveness and gumminess) of gels obtained with different proportions of yam, corn and cassava starches (6% total solids) and related to microstructural characteristics. Maximum limits of 60% yam starch and 70% corn starch and minimum level of 30% cassava starch were fixed to minimize syneresis under storage. Hardness, adhesiveness and gumminess increased with the proportion of corn starch in the blends. The lowest values of hardness corresponded to the blends containing higher proportions of cassava starch, that has the lowest amylose content. Corn starch was the component that less contributed to cohesiveness. The characteristic high cohesiveness of cassava starch pastes (related to its higher amylopectin content) was reduced when it was mixed in adequate proportions with yam and/or corn starches. Gels containing only yam starch presented syneresis values close to 40% after 24° h storage at 4°C; the decrease of the maximum level of yam starch to 60% as well as the inclusion of cassava starch in the blends reduced weight losses. Disadvantages found in gels containing individual starches, such as exudate in yam and corn starch gels, and excessive cohesiveness in cassava starch gels, are minimized improving their possible applications, when blends are used.     

Effects of fat level, tapioca starch and whey protein on frankfurters formulated with 5% and 12% fat

The effects of fat level (5% and 12%), tapioca starch and whey protein on the hydration/ binding properties, colour, textural and sensory characteristics of frankfurters were investigated. Decreasing the fat content increased cook loss and decreased emulsion stability and product lightness. Fat reduction increased smoke, spice and salt intensities and increased overall flavour intensity and juiciness. Texture profile analysis (TPA) indicated that fat reduction decreased gumminess and cohesiveness but the other parameters measured were unaffected. Addition of tapioca starch or whey protein reduced cook loss and increased emulsion stability. Whey protein did not effect the sensory characteristics but tapioca starch increased overall flavour intensity. Both ingredients increased hardness, adhesiveness, gumminess and chewiness as measured by TPA. Two-factor interactions between fat level and ingredient were observed for several parameters. The results indicate that both ingredients can partially offset some of the changes which occur in low-fat frankfurters when fat is replaced with added water and protein level is constant.     

Fat, Soy and Carrageenan Effects on Sensory and Physical Characteristics of Ground Beef Patties

Sensory and physical characteristics of beef patties containing 20% fat, 8% fat, or 8% fat plus 20% soy protein isolate (SI), soy flour (SF), soy concentrate (SC), or a mixture (MIX) of carrageenan (0.5%), starch (0.5%), and phosphate (0.2%) were compared after 0, 4, 8, and 12 wks storage at - 18°C. MIX had higher Hunter a* values than other treatments. Cook loss was lowest for MIX and highest for all beef patties. Soy extenders decreased beefy flavor and increased off-flavor scores. Time in frozen storage increased off-flavor, rubbery texture, and TBA value, and decreased red color and Hunter b* value of ground beef patties. Quality may be lowered in frozen-stored high fat, or low-fat-soy extended beef patties.     

超声波协同冷冻保护剂对速冻饺子馅持水性及质构的影响

为降低速冻饺子馅在冻藏过程中产生的品质劣变,本文研究了超声波协同复合配方冷冻保护剂(抗冻蛋白复合配方:0.3%抗冻蛋白、5%海藻糖、0.05%茶多酚和0.03%V_C;大豆分离蛋白复合配方:6%大豆分离蛋白、0.4%卡拉胶、0.05%茶多酚和0.03% V_C;黄原胶复合配方:0.2%黄原胶、0.4%卡拉胶、0.05%茶多酚和0.03% V_C)对速冻饺子馅抗冻性能的改善作用。研究发现,在冻藏90 d后,与仅添加抗冻蛋白复合配方、大豆分离蛋白复合配方和黄原胶复合配方冷冻保护剂的肉馅相比,超声波协同处理60 min后的肉馅解冻损失率分别降低了58.3%、63.0%和52.0%,蒸煮损失率分别降低了18.5%、67.6%和32.6%。超声波协同抗冻蛋白复合配方和大豆分离蛋白复合配方处理60 min后,肉馅的硬度和弹性提高、咀嚼性和粘聚性增加,质构特性得到改善,但是超声波协同黄原胶复合配方组对肉馅的质构特性有不利影响。超声波协同抗冻蛋白复合配方、大豆分离蛋白复合配方和黄原胶复合配方处理60 min组比仅添加复合配方组的硫代巴比妥酸(TBARS)值分别降低了17.2%、24.0%和33.3%。超声波处理能显著(P<0.05)提高复合配方冷冻保护剂对速冻饺子馅持水性的改善效果,增强复合配方冷冻保护剂对饺子肉馅脂肪氧化的抑制作用,且在一定程度上改善速冻饺子肉馅的质构性能。     

Texture of Yeast Breads Containing Soy Protein Isolates: Sensory and Objective Evaluation

Three soy protein isolates were substituted on an equal protein basis for soy flour in a yeast bread formula. The consumer texture profile technique was used for sensory evaluation of the breads. A compression cage attached to an Instron was used for objective evaluation of textural characteristics. Panelists noted differences in smoothness, uniformity of cell distribution, chewiness, greasiness and crumbliness among the soy-containing breads. Deviations from the perceived ideal bread were shown for most textural characteristics. Soy isolates influenced volume, specific volume, hardness, springiness, gumminess and chewiness of the breads.     

柠檬酸钙和大豆分离蛋白对大米淀粉质构分级的影响

目的 探究柠檬酸钙和大豆分离蛋白对大米淀粉液体食品质构分级的影响。方法 本研究通过国际吞咽障碍饮食标准(International Dysphagia Diet Standardisation Initiative, IDDSI)质构测试、物性分析、快速黏度分析及扫描电镜等技术方法分析柠檬酸钙(0.1%、0.2%和0.3%)和大豆分离蛋白(5%、10%和15%)对大米淀粉质构分级的影响。结果 IDDSI质构测试结果表明,柠檬酸钙使大米淀粉质构等级呈上升趋势(添加量为0.3%时,质构等级由2级变为3级),而大豆分离蛋白使大米淀粉质构等级呈下降趋势。物性分析(A/BE模式)结果表明,添加比例为0.3%的柠檬酸钙的淀粉样品黏度升高51.4%,添加比例为15%的大豆分离蛋白的淀粉样品黏度下降19.4%。快速黏度分析淀粉样品的终值黏度结果与物性分析的黏度结果趋势一致。粒径分析结果表明,柠檬酸钙提高了淀粉颗粒的尺寸,促进了淀粉颗粒的膨胀。大豆分离蛋白减小了淀粉颗粒的尺寸,抑制了淀粉颗粒的膨胀。红外光谱分析表明,钙盐和蛋白的添加量越大,淀粉分子之间的氢键数量减少的越明显。此外,通过扫描电镜观察到柠檬...     

大豆异黄酮-玉米淀粉复合物制备及其性能研究

采用大豆异黄酮（soy isoflavone,SI）和玉米淀粉（corn starch,CS）复合,通过热溶法制备大豆异黄酮-玉米淀粉（SI-CS）复合物,应用快速黏度分析仪（rapid visco analyser,RVA）、流变仪、质构仪（texture analyzer,TPA）,研究SI-CS复合物糊化特性、流变特性及质构特性的变化规律。以复合物中SI含量为指标,通过单因素结合响应面试验探究SI添加量、加热温度、加热时间对复合物中SI含量的影响。结果表明:SI添加量2.4%、加热温度70℃、加热时间1.0 h时复合物中SI含量为5.04 mg/g。与对照CS相比,SI-CS复合物峰值黏度增加20.39%、崩解值降低70.78%;SI-CS复合物的储能模量（G'）降低,而损耗模量（G"）升高,即弹性降低而黏性升高;SI-CS复合物硬度降低20.22%。     

仙草牛肉低温蒸煮火腿食用品质研究

以低温蒸煮牛肉火腿为例,研究添加不同辅料后火腿硬度、弹性、咀嚼性、色泽、感官评分的变化。发现仙草萃取物能辅助卡拉胶、大豆蛋白和土豆淀粉有效提高牛肉火腿品质。响应曲面分析表明：随着仙草萃取物浓度和土豆淀粉添加量的增加火腿感官评定得分先增后减,而随大豆蛋白添加增加而增加且变化渐缓,仙草萃取物影响最大。火腿硬度随着土豆淀粉和大豆蛋白添加量增加显著增加,而随着仙草萃取物浓度增加先增后减。优化配方为：每100 g牛肉,添加仙草浓度为50 mL原萃取物稀释20.6倍,土豆淀粉添加量为5.13 g,大豆蛋白添加量为5.12 g,食盐2.8 g,白糖1 g,抗坏血酸0.04 g,亚硝酸钠0.004 g,TSP焦磷酸钠0.1 g,STP多聚磷酸钠 0.125 g,HM六偏磷酸钠0.075 g,红曲红色素0.003 g,感官评分为8.15,硬度值为3381.10 g,咀嚼度为3373.94。     

普鲁兰多糖对籼米粉凝胶及老化特性的影响

探究不同添加量的普鲁兰多糖(0%、2%、4%、6%、8%)对籼米粉糊化特性、流变特性、凝胶质构以及微观结构的影响。结果表明,普鲁兰多糖的添加使米粉的糊化特性、流变特性、凝胶质构和微观结构发生显著变化。随着普鲁兰多糖添加量的增加,混合粉的峰值黏度、最低黏度、崩解值、回生值、弹性模量、黏性模量均逐渐降低,糊化温度略有升高,表明普鲁兰多糖抑制了大米淀粉的糊化;X-射线衍射的分析表明普鲁兰多糖的添加降低了淀粉的重结晶度,抑制了淀粉老化;普鲁兰多糖添加后的凝胶呈现出多孔状结构,表明淀粉连续性的凝胶结构被破坏,从而导致凝胶的硬度、弹性、黏聚性、胶着度、咀嚼性逐渐降低。     

果蔬复合重组牛肉制品加工特性与工艺优化

本文欲研制的营养均衡、风味独特果蔬复合重组牛肉制品,是以不同营养、风味、价格和加工特性的牛肉和鸡肉为原料,加胡萝卜、低聚异麦芽糖、膳食纤维(苹果皮)、鸡蛋、大豆蛋白、芝麻等营养物,经谷氨酰胺转胺酶(TG-B)粘合重组、蒸煮定型、速冻加工精制而成.通过肉制品弹性、咀嚼性、内聚性、胶着性、硬度等质构特性单因素试验,得胡萝卜...     

木薯变性淀粉对猪肉肌原纤维蛋白凝胶质构、流变及热力学特性的影响

本实验研究了不同比例的木薯变性淀粉对猪肉肌原纤维蛋白(MP)凝胶特性的影响。分析了凝胶质构、静态流变和热力学特性的变化。结果显示:添加10%的木薯变性淀粉增加了蛋白凝胶的弹性,而凝胶的硬度、强度、内聚性、咀嚼性和胶黏性相对适中,从而改善凝胶的质构特性;通过差示扫描量热仪(Differential scanning calorimetry,DSC)分析发现木薯变性淀粉添加量为10%时,降低了蛋白的热相变温度和焓值,促进蛋白变性;另外,木薯变性淀粉的添加也改变了凝胶的表观粘度及触变环面积。当木薯淀粉添加量为10%时,凝胶的表观粘度和触变环面积最小,改善了凝胶的塑性能力及流变稳定性。