亲水胶体对胡柚饮料稳定性的影响

以胡柚饮料为研究对象,以离心沉淀率和混浊稳定性为考察指标,探讨了添加黄原胶、羧甲基纤维素（CMC）、瓜尔豆胶和果胶4种亲水胶体对胡柚饮料稳定性的影响。结果表明：随着亲水胶体添加量的增加,胡柚饮料的稳定性呈上升趋势,其适宜的添加量为0.15%～0.2%,亲水胶体的稳定性顺序为：果胶〉CMC〉瓜尔豆胶〉黄原胶;黄原胶与果胶复配比为1∶2～3,添加量为0.15%～0.2%时,胡柚饮料稳定性最好,口感最佳。     

Heat stability of oil-in-water emulsions formed with intact or hydrolysed whey proteins: influence of polysaccharides

The heat stability of emulsions (4 wt% corn oil) formed with whey protein isolate (WPI) or extensively hydrolysed whey protein (WPH) products and containing xanthan gum or guar gum was examined after a retort treatment at 121 °C for 16 min. At neutral pH and low ionic strength, emulsions stabilized with both 0.5 and 4 wt% WPI (intact whey protein) were stable against retorting. The amount of β-lactoglobulin (β-lg) at the droplet surface increased during retorting, especially in the emulsion containing 4 wt% protein, whereas the amount of adsorbed α-lactalbumin (α-la) decreased markedly. Addition of xanthan gum or guar gum caused depletion flocculation of the emulsion droplets, but this flocculation did not lead to their aggregation during heating. In contrast, the droplet size of emulsions formed with WPH increased during heat treatment, indicating that coalescence had occurred. The coalescence during heating was enhanced considerably with increasing concentration of polysaccharide in the emulsions, up to 0.12% and 0.2% for xanthan gum and guar gum, respectively; whey peptides in the WPH emulsions formed weaker and looser, mobile interfacial structures than those formed with intact whey proteins. Consequently, the lack of electrostatic and steric repulsion resulted in the coalescence of flocculated droplets during retort treatment. At higher levels of xanthan gum or guar gum addition, the extent of coalescence decreased gradually, apparently because of the high viscosity of the aqueous phase.     

The physico-chemical properties of commercial canola protein isolate-guar gum gels

Biopolymer mixtures impart desirable texture to foods. Dynamic rheology was used to characterize canola protein isolate (CPI)‐guar gum gels. The effects of pH, salt, guar gum and protein concentrations on the gelling ability of CPI were evaluated. Factorial and response surface optimization models were used to identify the optimum conditions (20%, w/v CPI; pH 10; 1.5%, w/v guar gum; 0.05 m NaCl) that would simultaneously maximize G′ (≥28 000 Pa) and minimize tan δ (<0.17) values of CPI‐guar gum gels. Although pH > 8 is unconventional in food systems, strong and elastic CPI‐guar gum gels (G′ =56 440 Pa; tan δ = 0.18) were produced at pH 10, whereas gels prepared at pH 6 were less elastic (G′ = 2726 Pa; tan δ = 0.2). Under the optimum conditions, CPI alone formed a stronger gel (G′ = 64 575 Pa; tan δ = 0.15) than CPI‐guar gum mixture, suggesting that guar gum interfered with protein gelation.     

不同单一胶体对花生乳稳定性的影响

研究了黄原胶、瓜尔豆胶、CMC-Na在单因素条件下对花生乳稳定性的影响,通过花生乳室温下放置24h后静置观察、分析样品的黏度、离心沉淀率和脂肪上浮率。结果表明:3种胶体对花生乳体系均有一定的增黏作用,适宜的质量分数均能提高体系的稳定性,其中黄原胶、瓜尔豆胶、CMC-Na的适宜用量分别为≤0.02%、0.01%-0.03%、0.02%-0.04%。     

亲水胶体对鸡蛋清起泡性的影响

亲水胶体在许多食品的制作过程中都起到重要的提升产品品质的作用。研究分析了黄原胶、海藻酸钠、羧甲基纤维素(CMC)、瓜尔豆胶和壳聚糖等几种亲水胶体的不同添加量对鸡蛋清的打擦度、起泡性及泡沫稳定性的影响。结果表明亲水胶体添加CMC、瓜尔豆胶可明显增加蛋清的打擦度,添加海藻酸钠则降低蛋清的打擦度,而黄原胶的添加对蛋清打擦度的影响则受到不同的添加量分别出现打擦度增加和降低的不同结果,壳聚糖的添加对蛋清的打擦度影响不大。研究过程也发现,蛋清中添加黄原胶、CMC、瓜尔豆胶和壳聚糖后,泡沫达到最大体积的时间比对照组明显缩短,蛋清起泡效率提高。几种胶体的添加增加蛋清打擦度由大到小顺序为:瓜尔胶>CMC>壳聚糖≈对照(无添加)>黄原胶>海藻酸钠。添加亲水胶体可以增强鸡蛋清的泡沫稳定性。     

Determination of the fruit content of cherry fruit preparations by gravimetric quantification of hemicellulose

A method recently developed for the determination of the fruit content of strawberry fruit preparations by gravimetric quantification of hemicellulose was extended to cherry fruit preparations. Isolation of the alcohol-insoluble residue (AIR) and sequential fractionation of the cell wall compounds from cherries (Prunus cerasus L. cv. ‘Oblacinska’) was performed yielding the amount of fresh cherries per gram hemicellulose. Cherry fruit preparations with varying fruit contents (30–40%) were produced using different hydrocolloid systems (pectin, starch, guar gum, xanthan gum, carrageenan, and combinations thereof). After separation of the hydrocolloids by enzymatical digestion and successive extraction, the fruit preparations were subjected to AIR isolation. The AIR was fractionated to yield the hemicellulose fraction, which was quantified gravimetrically for the calculation of the fruit content. Compared to strawberries, modifications including additional extraction steps for the sequential fractionation were required to separate the pectin of the cherries exhaustively. Calculated and initial fruit contents were in good agreement for the single hydrocolloid components pectin and starch as well as for the combinations pectin/xanthan gum and pectin/carrageenan (26.8% vs. 30%, 38.6% vs. 40%, 42.5% vs. 40%, 37.6% vs. 40%, and 41.2% vs. 40%), whereas the preparations produced with more complex hydrocolloid systems (pectin/xanthan gum/guar gum and starch/xanthan/guar gum) showed larger deviations in their contents (46.2% vs. 40%, 49.6% vs. 40%). It is concluded that the novel method is generally suitable for the determination of the fruit content of fruit preparations, but steps of sample preparation need to be individually adapted to the different fruit matrices.     

Corn Masa and Tortillas from Extruded Instant Corn Flour Containing Hydrocolloids and Lime

Extruded instant corn flour (EICF) samples with hydrocolloids (gums), such as gum arabic, carboxymethylcellulose (CMC), guar and xanthan and with different concentrations of lime (0.1, 0.2 and 0.3% w/w) were prepared by extrusion. The gums were added before or after thermal processing. The dehydration process followed through the weight loss (WL) in masa, the physicochemical (water absorption capacity (WAC) and WL during cooking) characteristics of masa were optimized to give longer dehydration times and tortillas with good textural (rollability, tensile strength and cutting force) properties. The lowest effective moisture diffusion coefficient (D*) was found in masa samples containing 0.2% (w/w) of lime and 0.5% (w/w) of the xanthan gum added before extrusion. These masas produce tortillas with optimum textural characteristics and highest yields.     

响应面法优化复合植物蛋白饮品的稳定体系

用响应面方法对复合植物蛋白饮品的稳定体系进行了优化。先用全因子实验对稳定剂组分卡拉胶、瓜尔豆胶、黄原胶和结冷胶对复合植物蛋白饮品沉淀量的影响进行了评价,并找出主要影响因子为瓜尔豆胶和结冷胶,其它组分对沉淀量没有显著影响。采用中心组合设计及响应面分析确定主要影响因子的最佳浓度。稳定体系的最佳组成为(g/L):卡拉胶0.2、瓜尔豆胶0.5、黄原胶0.2、结冷胶0.5,此条件下复合植物蛋白饮品表现出良好的稳定性。     

四种添加剂的流变性能研究

论文主要对四种添加剂进行了流变性能的研究,四种添加剂中,黄原胶、瓜尔豆胶其胶体溶液流变性有更多的相似性,它们浓度在0.3%以上时,均为非牛顿型流体,CMC浓度在0.5%以上时为非牛顿型流体,且为非触变性流体.海藻酸钠胶体溶液为牛顿型流体.四种添加剂胶体溶液的粘度,瓜尔豆胶＞黄原胶＞CMC＞海藻酸钠.但在搅动环境下,当剪切力大于一定的屈服应力时,剪切稀化效应将导致粘度的下降,下降幅度为瓜尔豆胶＞黄原胶＞CMC.黄原胶更具有独特的流变性、优良的热稳定性、酸稳定性,其次为瓜尔豆胶.CMC、海藻酸钠的热稳定性并不是很好,在高酸性的环境条件下,海藻酸钠的粘度反而增加.     

果胶、黄原胶、海藻酸钠、耐酸性CMC对丝素酸奶乳酸菌数的影响

采用两因素三水平析因试验设计,考察了4种常用的酸奶稳定剂(果胶、黄原胶、海藻酸钠、耐酸性CMC)对搅拌型丝素酸奶乳酸菌数的影响。结果显示:果胶、黄原胶、海藻酸钠、耐酸性CMC对丝素酸奶的乳酸菌数均有极显著的影响(P<0.01),其中黄原胶、海藻酸钠和丝素对乳酸菌数有极显著的交互作用(P<0.01),果胶和丝素对乳酸菌含量有显著的交互作用(P<0.05),耐酸性CMC和丝素对酸奶的乳酸菌数无显著的交互作用(P>0.05)。4种稳定剂中,黄原胶和海藻酸钠可提高搅拌型丝素酸奶的乳酸菌数,其中添加1%丝素和0.03%海藻酸钠的酸奶的乳酸菌数最高,达到1.20×1011mL-1;其次为添加1%丝素和0.05%黄原胶的酸奶,乳酸菌数为1.07×1011mL-1。     

Rheological Properties and Adhesion Characteristics of Flour-Based Batters for Chicken Nuggets as affected by Three Hydrocolloids

Time-dependency, apparent viscosity, shear-thinning behavior, recovery and adhesion characteristics were determined on 30% solids flour-based batters containing hydrocolloids (guar, xanthan and carboxymethylcellulose, CMC) at 0.25, 0.5, and 1.0%. Most batters were thixotropic. Batters containing xanthan gum had the greatest apparent viscosity followed in decreasing order by guar gum, CMC and control batters. Apparent viscosity correlated highly positively with batter adhesion characteristics measured on chicken nuggets as coating pickup, overall yield, and cooked yield. Mixer viscometry techniques were useful to follow changes in rheological properties caused by mixing speed and time.     

Influence of guar gum addition on physicochemical,microbial, rheological and sensory properties of stirred yoghurt

This study investigated the effects of adding guar gum (0, 0.6 and 0.8 g/100 mL) on the physicochemical, microbial, rheological and sensory properties of stirred yoghurt. Incorporation of guar gum into the yoghurt significantly affected the pH and colour, but did not significantly influence the lactic acid bacteria counts. The magnitudes of apparent viscosity (η_a,100), consistency index (K), yield stress (σ_oc), storage modulus (G′) and loss modulus (G″) for yoghurt samples containing guar gum (0.6–0.8 g/100 mL) were significantly greater than those for the control (without guar gum), indicating that guar gum can improve the steady and dynamic shear rheological properties of yoghurt.     

Effects of pectin and guar gum on creaming stability, microstructure and rheology of egg yolk plasma-stabilized emulsions

The influence of pectin and guar gum on the creaming stability, microstructure and rheological properties of 1.0% (w/v) egg yolk plasma (EYP)-stabilized 25.0% (v/v) soybean oil-in-water emulsions was studied at pH 7.0. Addition of pectin/guar gum decreased creaming percentage, and no creaming was detected in the presence of 0.5% (w/v) pectin/guar gum as a result of increasing viscosity. At the end of 10 h, creaming percentage decreased from 61 to 57% with the addition of 0.05% (w/v) guar gum and to 39% with the addition of 0.2% (w/v) guar gum. Microscopic observations represented the droplet aggregation arising from the presence of nonabsorbing biopolymers. At \mathop g^. \mathop \gamma \limits^{.}  = 10 s⁻¹, a tenfold increase in viscosity was observed in the presence of 0.5% (w/v) guar gum compared to the presence of 0.1% guar gum due to the thickening effect of polysaccharide. Increasing gum concentrations enhanced the viscosity and hence the consistency index. All emulsions, except for those containing 0.5% (w/v) guar gum, reflect the near-Newtonian behaviour with flow behaviour index, n, of 0.9–1.0. All emulsions exhibited a liquid-like behaviour at low frequencies (<7.0 Hz) where G″ values were higher than G′. Both G′ and G″ showed a frequency dependency and these two moduli crossed each other at higher frequencies (>7.0 Hz), G′ became greater than G″ and the system behaved like an elastic solid. Addition of pectin at all levels cause no significant change in G′ and G″ values, whereas addition of guar gum, especially at a concentration of 0.5% (w/v), significantly improved these values.     

食品胶对豆浆中活性成分异黄酮苷元热稳定性的影响

研究了羧甲基纤维素钠(CMC)、海藻酸钠、黄原胶等食品添加剂对豆浆热处理过程中活性成分异黄酮苷元热稳定性的影响.高效液相色谱分析表明,CMC、黄原胶、海藻酸钠都能减少黄豆苷元、大豆黄素、染料木黄酮三种异黄酮苷元的热损失,其中CMC效果最理想,海藻酸钠次之,黄原胶最差.食品胶的复配能够减少豆浆中异黄酮苷元热损失.CMC/海藻酸钠组合明显好于CMC/黄原胶和黄原胶/海藻酸钠两种组合,当CMC/海藻酸钠=3:2时,在热处理条件为95℃,lOmin条件下,各异黄酮苷元热损失最少,黄豆苷元含量提高9.83%,大豆黄素12.67%,染料木黄酮18.63%.在三种食品胶共同复配组合中,CMC/黄原胶/海藻酸钠(4:3:3)组合的效果最好,黄豆苷元含量提高9.3%,大豆黄素10.13%,染料木黄酮18.26%.     

Effect of Some Stabilizers on Textural and Sensory Characteristics of Yogurt Ice Cream from Sheep's Milk

Yogurt ice cream made of 6.5% sheep's milk fat and 11.5% of nonfat milk solids (MSNF) derived by 83% from sheeps milk contained decreased lactose and increased protein by approximately 20% and 25%, respectively, compared to the conventional product from cow's milk. Acidity of the final product was from pH 4.4 to 4.9. Stabilizers that were tried were xanthan gum, guar gum and a commercial stabilizer at concentrations 0.0, 0.1, 0.2, 0.3, 0.4, and 0.5%. Based on determinations of physical qualities as well as on the sensory evaluation of the yogurt ice cream, xanthan gum gave optimum results at 0.2% concentration, guar gum at 0.3% while the commercial stabilizer was partially satisfactory up to 0.5% concentration.     

Effect of some hydrocolloids on the rheological properties of different formulated ketchups

Five different hydrocolloids (tragacanth gum, guar gum, carboxy methyl cellulose, xanthan gum and locust bean gum) were added, at levels of 0, 0.5, and 1 g/100 g (w/w), respectively, to three different formulated ketchups which were processed from cold-break tomato paste dilutions, having total soluble solid (TSS) contents of 7.5, 10, and 12.5 g/100 g (w/w), in sequence, and the effect of these hydrocolloids on the rheological properties of tomato ketchups was investigated using a viscometer with smooth surface wide-gap coaxial cylinders. All hydrocolloids increased the consistency of the tested samples; however, guar gum and locust bean gum caused the maximum increase, followed by xanthan gum, tragacanth gum and carboxy methyl cellulose (CMC). Both the ketchup formulation and the hydrocolloid concentration were found to affect the consistency of ketchups. The highest consistency index was obtained by processing dilutions with a TSS content of 12.5%, and the addition of hydrocolloids at the level of 1%. The fluidity of the ketchups decreased with both the addition of all hydrocolloids and the increase in hydrocolloids concentration. Furthermore, the fluidity of the ketchups was also affected by ketchup formulation, and it was found to be the lowest for the samples prepared from the tomato paste dilutions having a TSS content of 12.5%.     

雪莲果乳酸发酵酸奶的研制

将雪莲果汁加到酸奶中,以起到保健和药疗作用。经实验确定了雪莲果汁与脱脂乳体积比为5：5,白砂糖6g／100g,黄原胶和CMC分别为0．1g／100g,发酵剂接种量3g／100g。该酸奶具有雪莲果的保健功效和奶制品的营养功能,产品具有雪莲果和酸乳所特有的香气,香甜适口,组织均匀,口感细腻。     

增稠剂和乳化剂对豆浆稳定性的影响

为增加豆浆的稳定性,采用测定豆浆稳定系数、表面张力及进行感官评分的方法筛选适合用于豆浆样品的增稠剂和乳化剂,确定了最适宜的豆浆增稠剂和乳化剂的种类及其用量。经过黄原胶、刺槐豆胶、卡拉胶、结冷胶和海藻酸钠的单因素实验,黄原胶和刺槐豆胶的复配实验及黄原胶、刺槐豆胶和乳化剂(单硬脂酸甘油酯和蔗糖脂肪酸酯)的正交实验得出以下结果:黄原胶和刺槐豆胶对增加豆浆稳定性有着较好的效果,当它们的质量浓度分别为0.2g/L时,其稳定系数分别为0.737、0.742。单硬脂酸甘油酯和蔗糖脂肪酸酯复配后HLB=8、质量浓度为2g/L时,豆浆样品的稳定性最好,表面张力为41.7mN/m。当黄原胶、刺槐豆胶、乳化剂质量浓度(单硬脂酸甘油酯质量∶蔗糖脂肪酸酯质量=7∶4)分别为0.14、0.14、2g/L时豆浆的稳定性最好,此时豆浆样品的稳定系数为0.879,表面张力为41.6mN/m,感官评分为96。     

亲水胶体对油炸外裹糊鱼块油脂含量及品质的影响

通过分析外裹糊中添加瓜尔豆胶、卡拉胶、海藻酸钠、黄原胶和羧甲基纤维素钠（carboxymethylcellulosesodium,CMC-Na）的油炸外裹糊鱼块油脂含量、水分含量、裹糊率以及色度、质构和微观结构,探讨亲水胶体对油炸外裹糊鱼块品质的影响。结果显示,与未添加亲水胶体组（外壳油脂含量22.67 g/100 g,鱼块油脂含量1.58 g/100 g）相比,添加0.3%（质量分数,下同）瓜尔豆胶、卡拉胶、海藻酸钠或0.4%黄原胶、CMC-Na时,油炸外裹糊鱼块的外壳和鱼块的油脂含量较低,外壳和鱼块的水分含量及裹糊率较高。其中添加0.4%黄原胶组的减油效果最好（外壳和鱼块的油脂含量分别为17.96、1.01 g/100 g）,且油炸外裹糊鱼块外壳金黄色、酥性值较高、硬度较低,鱼块的弹性、咀嚼性好;苏丹红染色幅度较轻,外壳微观结构紧密,鱼块无较大气孔形成。     

Effect of Gums on Low-Fat Meat Batters

The effects of adding Iota-carrageenan, kappa-carrageenan, guar gum, locust bean gum, xanthan gum, methylcellulose, and a locust bean gum/kappa carrageenan mixture to low-fat, high moisture meat batters were investigated. The methylcellulose treatment showed an increase in weight losses between 60° and 70°C, while other treatments remained similar throughout heating. Xanthan gum and guar gum at 0.2% altered textural parameters as determined by texture profile analysis. Increasing the concentration of xanthan gum decreased batter hardness without affecting batter stability. Sensory evaluation indicated that low-fat frankfurters (11–12% fat) were as acceptable as control frankfurters (27% fat).