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1.
To study dough microstructure, epifluorescence light microscopy (EFLM) combined with digital image processing software was used, which enabled an improved image quality. A comparison was made between EFLM and confocal scanning laser microscopy (CSLM) methods. Both techniques were satisfactorily able to demonstrate changes in the dough microstructure upon different stages of z-blade mixing. Dough mixed for a shorter time (under-mixed) showed a heterogeneous structure with coarse protein domains and clusters of starch due to local segregation or de-mixing effect. Increasing mixing time (optimal mixing) led to development of interconnected gluten network covering starch granules throughout the dough, representing optimal development. Over-mixing led to formation of a homogeneous dough microstructure in which the gluten phase showed a fine distribution throughout the dough. Using a double staining method in the preparation of samples for both microscopic techniques it was possible to observe gluten network structures together with starch granules. Moreover, special features of image processing software described in this study enabled us to improve EFLM images and to obtain comparable images with CSLM. This could favour a low cost and a convenient microscopic observation of biomaterials. 相似文献
2.
面条品质评价指标及评价方法的研究 总被引:6,自引:0,他引:6
为了全面科学地评价小麦品种的面条加工特性,测定了29个北方小麦品种的面粉品质和鲜湿面条的制作品质,采用相关分析和多元回归分析方法,分析了面粉品质指标与鲜面条加工品质之间的关系.结果表明,面条的蒸煮损失率、拉伸强度、拉断力、延伸率与面条综合得分间的相关系数分别为-0.429、0.944、0.796和0.398,相关性很强,可以用作面条品质的辅助评价指标,即辅助综合得分来评价面条品质;面团的形成时间、稳定时间及弱化度与面条的综合得分和蒸煮损失率均呈极显著相关,面粉中的总淀粉含量与面条的综合得分呈显著相关,并且面粉白度、蛋白质含量、湿面筋含量、沉淀值、吸水率、形成时间、稳定时间、弱化度、总淀粉含量、直链淀粉含量、支链淀粉含量、支直链淀粉比等12项指标都不同程度地进入了面条的上述5个品质评价指标的回归方程,进一步说明用这5个指标来综合评价面条品质是可取的.根据面条各品质指标的相关性推出各品质指标在面条综合评价中所占的权重,再将利用回归方程算出的5个面条品质评价指标的数据进行标准化处理以消除量纲的影响后,即可计算出某个小麦品种所生产面条的综合评价分数.本研究即通过这一方法从29个供试小麦品种中优选出了6个优质面条用小麦品种,它们分别是洛展1号、泰山23、温麦4号、太空6号、淮麦16、温麦8号. 相似文献
3.
To assess the effect of NaCl on processing properties of different varieties of wheat flour and noodle quality, the rheological properties of dough, and the quality of white salted noodles made from three different varieties of wheat flour were evaluated. The results showed that the addition of NaCl had different effects on the rheological properties of different varieties of wheat flour. As NaCl concentration increased, the stability time of both intermediate-gluten and weak-gluten wheat flour increased, while that of strong-gluten wheat flour increased initially and then remained stable. The developing time of strong-gluten wheat flour increased, while those of both intermediate-gluten and weak-gluten wheat flour did not change significantly. The energy values of intermediate- and weak-gluten wheat flour did not change significantly while that of strong-gluten wheat flour increased. NaCl had no apparent effects on the hardness, springiness, gumminess, chewiness and resilience of noodles. The cooking loss of fresh noodles increased positively with increasing NaCl concentration. Microstructure of noodles showed that gluten network structure of noodles became more and more dense with increasing NaCl concentration. The effect of NaCl on gluten protein contributed to the change of rheological properties and noodle quality. 相似文献
4.
《Journal of Cereal Science》2004,39(1):29-36
The influence of process parameters during the dough formation step on wheat flour gluten agglomeration and composition in a laboratory scale gluten–starch separation process was studied. In the process, in which a dough was transformed into a batter then poured over a set of vibrating sieves (400, 250 and 125 μm), increasing water contents, mixing times and speeds during dough development all had a positive effect on gluten agglomeration as indicated by an increased gluten protein recovery on the 400 μm sieve. This showed the importance of optimal gluten hydration and development at the dough making stage of the process. The total level of gluten recovered on the three sieves was not affected significantly by the variables. Changes in gluten agglomeration behaviour coincided with changes in the carbohydrate composition of the gluten fractions. When the gluten protein recovery on the 400 μm sieve increased, the arabinose and xylose contents of the fractions decreased, while the starch content increased. 相似文献
5.
This paper describes a novel principle for the separation of wheat flour into starch and gluten in a concentrated medium. The process is based on the use of simple shear flow in a cone-and-cone device. The separation takes place in two steps. Initially, local segregation of gluten and starch phases occurs, leading to formation of macroscopically visible gluten patches distributed throughout the dough. This local segregation can be understood by considering the dough as a visco-elastic matrix containing an inert filler (starch). Further shearing leads to aggregation of those patches and migration (large-scale separation) towards the apex of the cone. As a result, the wheat dough is separated into a protein-poor fraction, containing less than 4% protein, and a protein-rich fraction containing almost 50% protein on a dry weight basis. However, under the process conditions used, upon a very long shearing, a redistribution of the aggregated gluten structures in the starch phase was observed, demonstrating a processing limit for the separation performance. Compared to traditional processing, the separation process presented shows opportunities for producing high quality gluten accompanied with significant water savings. Considering the fact that simple shear flow in steady rate is less harmful to gluten quality, such a separation process could benefit gluten quality. 相似文献
6.
The relation between protein characteristics, protein network formation and wheat noodle properties was studied. Bovine serum albumin (BSA), soy glycinin, ovalbumin, S-ovalbumin and lysozyme were included in the recipe of wheat-based noodles. The characteristics of these non-wheat proteins impacted the type, rate and extent of protein network formation during noodle dough preparation and cooking, and thereby the properties of fresh and cooked noodles. None of the added proteins enhanced the properties of fresh noodles. BSA and soy glycinin enhanced Kieffer-rig extensibility parameters of cooked noodles. Addition of ovalbumin or S-ovalbumin led to excessive protein polymerization in cooked noodles and lowered their quality. Inclusion of lysozyme lowered the rate and extent of polymerization during cooking. Experiments in which urea, olive oil or urea were added in the recipe showed that non-covalent interactions dominate the properties of fresh noodles while covalent cross-links and hydrogen bonds mainly impact the properties of cooked noodles. 相似文献
7.
Waxy wheat flour (WWF) was substituted for 10% regular wheat flour (RWF) in frozen doughs and the physicochemical properties of starch and protein isolated from the frozen doughs stored for different time intervals (0, 1, 2, 4 and 8 weeks) were determined to establish the underlying reasons leading to the effects observed in WWF addition on frozen dough quality. Using Nuclear Magnetic Resonance (NMR), Differential Scanning Calorimeter (DSC) and X-ray Diffraction (XRD) among others, the gluten content, water molecular state, glutenin macropolymer content, damaged starch content, starch swelling power, gelatinization properties, starch crystallinity and bread specific volume were measured. Compared to RWF dough at the same frozen storage condition, 10% WWF addition decreased dry gluten and glutenin macropolymer contents and T23 proton density of frozen dough, but increased the wet gluten content, T21 and T22 proton density. 10% WWF addition also decreased damaged starch content, but increased starch swelling power, gelatinization temperature and enthalpy, crystallinity of starch and bread specific volume of frozen dough. Results in the present study showed that the improvement observed due to WWF addition in frozen dough bread quality might be attributed to its inhibition of redistribution of water molecules bound to proteins, increase in damaged starch content and decrease in starch swelling power. 相似文献
8.
优质小麦重要性状的相关分析 总被引:25,自引:6,他引:25
利用7个优质小麦品种(品系),分析了优质小麦籽粒产量与品质性状的关系,以及品质性状之间的关系。结果表明,籽粒产量与蛋白质含量、湿面筋含量和干面筋含量等营养品质性状呈极显著或显著负相关,与Zeleny沉淀值、面团形成时间和稳定时间等加工品质性状相关不显著。蛋白质含量与湿面筋含量和干面筋含量逗号地极显著正相关,湿面筋含量与干面筋含量呈极显著正相关。Zeleny沉淀值与面团形成时间和稳定时间呈显著或极显著正相关,面团形成时间与稳定时间呈极显著正相关。据此提出优质高产结合改良的重点是协调好粒产量与加工质量,充分利用蛋白质优质基组合。 相似文献
9.
The Farinograph time-to-peak is an important wheat flour quality parameter. It is well-established that insoluble glutenins correlate with the strength of the gluten network and dough mixing time. To learn more about the physical changes at the mesoscopic level, dough samples were prepared in the Farinograph for study with diffusion wave spectroscopy. It was confirmed that a space-filling network was formed by wheat gluten proteins (mainly glutenin). At peak development (9.0 min) it was shown that the starch granules were confined in the gluten network. After the time-to-peak, dough resistance weakened, showing an increase of the starch granule movement. Kneading disrupts insoluble glutenin particles, the disrupted glutenin becomes part of the Sodium Dodecyl Sulfate (SDS)-extractable proteins. Both soluble and insoluble wheat protein extracts have been characterized by light scattering techniques. The results derived from light scattering of the wheat protein fractions: particle radii, apparent molar mass and geometrical shapes, suggests that the disrupted glutenin aggregate shape and glutenin size heterogeneity could be more important for gluten network bulk consistency, connectivity and resistance at dough peak, than the apparent molar mass of the solubilized glutenins, reaching a maximum after dough peak. 相似文献
10.
Gluten and starch are the two main ingredients of a wheat flour dough and it is expected that the extent of air occlusion into the dough would be affected by differences in their relative ratios. The objectives of this paper were to investigate the hydration and development of gluten and how these key events in dough mixing affected air occlusion in gluten-starch doughs. For gluten-starch doughs of the same gluten content, decreasing the water absorption shortened development time and decreased dough density. For formulations of the same water absorption, decreasing the gluten content prolonged the time to development and increased dough density, reflecting less net air entrainment into the dough. The ratios of gluten, starch and water strongly influenced the development of the dough into a good gas-holding material, with the extent of gas entrainment during mixing being evident in measurements of both dough consistency and dough development time. 相似文献
11.
During breadmaking, a continuous protein network is formed which confers visco-elasticity to dough. The properties of this protein network are highly dependent on the characteristics of the gluten proteins of the wheat flour. A good quality (highly elastic) gluten network retains the carbon dioxide that is produced by the yeast, giving dough and bread with optimal properties. However, the properties of the gluten proteins can differ substantially between wheat flours and are highly dependent on genetic, environmental and post-harvest conditions. Deficiencies in wheat quality for breadmaking can be overcome by incorporating exogenous components which alter the functionality of the gluten proteins during breadmaking. These include additives (e.g. potassium bromate, iodate, chlorine dioxide and chlorine, azodicarbonamide, ascorbic acid and peroxides) and enzymes affecting protein crosslinking. Transglutaminase, glucose oxidase, hexose oxidase and laccase all promote the formation of covalent bonds between gluten proteins and, hence, can serve as alternatives to chemical bread improvers. 相似文献
12.
Feng WangWeining Huang Yangsoo KimRuoshi Liu Michael Tilley 《Journal of Cereal Science》2011,54(1):53-59
Incorporating exogenous proteins into food production is a common practice for improving processing characteristics. In the present study, oat dough containing 15% (w/w, blends of protein-oat flour basis [POB]) vital wheat gluten (VWG) or 15% (w/w, POB) egg albumin (EA) was used to produce noodles with or without gluten (i.e., gluten-free). The rheological and noodle-making characteristics of oat dough containing exogenous proteins and the effects of added transglutaminase (TGase) were examined. The results indicate that the extent of TGase’s modification of the thermomechanical and dynamic rheological characteristics (G′ and G″) is dependent on the source of exogenous proteins in the oat dough. By adding 1.0% (w/w, POB) TGase, the cooking qualities of the resulting noodles (i.e., those containing VWG and EA) were significantly elevated with lower cooking loss; the elasticity of both types of noodles increased. The effects of TGase in different dough systems were analyzed by SDS-PAGE. In oat dough prepared with VWG, TGase was shown to catalyse the cross-linking of both oat protein and gluten protein; however, oat protein acted as the only substrate of TGase in the noodles that had been prepared with EA. 相似文献
13.
为了解安徽省宿州市砂姜黑土区大田小麦籽粒质量现状,评估该区域小麦加工利用潜力,以2011-2013年安徽省宿州市砂姜黑土区抽取的107份大田小麦样品为试验材料,参照相关标准分析了小麦籽粒质量特性及其加工利用能力。结果表明,宿州砂姜黑土区大田小麦容重平均为792±17 g·L-1,籽粒蛋白质含量平均为14.2±1.6%,湿面筋含量平均为29.1±3.6%,面团稳定时间平均为11.8±9.7 min;容重、籽粒蛋白质含量、湿面筋含量年际间变异较小,面团稳定时间年际间变异较大。2011-2013年宿州砂姜黑土区大田小麦样品中有20.56%达到《优质小麦-强筋小麦》二等标准。宿州砂姜黑土区生产的小麦籽粒质量为中筋偏强类型;以湿面筋含量、面团稳定时间为依据,宿州砂姜黑土区大田小麦适宜加工面条、馒头、饺子等传统中式面制品。 相似文献
14.
播期和密度对镇麦168农艺和品质性状的影响 总被引:2,自引:0,他引:2
为探寻小麦新品种镇麦168高产优质栽培的适宜播期与密度,通过二因素随机区组试验,分析了播期和密度对该品种农艺和品质性状的影响。结果表明,播期和密度对镇麦168的产量、部分农艺和品质性状均有影响。随着播期的推迟,产量、面团形成时间和稳定时间、湿面筋含量均呈现先升后降趋势;适当控制密度可协调有效穗数、穗粒数、千粒重,进而提高产量,同时可增加面团稳定时间、籽粒蛋白质和湿面筋含量。在本试验条件下,该品种优质高产适宜播期和种植密度分别为10月31日和270万株·hm-2。 相似文献
15.
为给拉面质量评价、拉面用粉标准的制定提供感官评价方法,采用走访询问、现场调查和网络交流等方式,收集拉面师傅对实验室制定的拉面制作过程感官评价方法的意见和建议;以餐饮市场常用小麦粉为样品原料,在兰州市和北京市分别开展消费者对拉面产品感官评价要素重视程度的问卷调查,分析、评估和确定了拉面制作过程和产品感官评价方法。88.89%的拉面师傅认为,所制定的拉面制作过程和感官评价方法可以概括拉面制作的整个过程,其对评价指标的重视程度依次为"和面难易程度及面团软硬程度""断条扣数及均匀性""跐面力度及黏手程度""醒发后面团色泽"="拉伸力大小";制定的拉面制作工艺可使大多数小麦粉满足加工工艺要求。消费者对产品感官评价要素的重视程度由高到低为弹性色泽硬度光滑性表观黏性;消费者完全可以区分出拉面用小麦粉的质量优劣。本研究制定的方法可用于拉面制作过程和产品感官质量的评价。在百分制评价体系中,拉面制作过程感官评价赋值分别为"和面难易程度及面团软硬程度"35分、"断条扣数及均匀性"20分、"跐面力度及黏手程度"15分、"醒发后面团色泽"15分、"拉伸力大小"15分;拉面产品消费者感官评价赋值分别为"弹性"30分、"硬度"20分、"色泽"20分、"表观性状"10分、"光滑性"10分、"黏性"5分、"食味"5分。 相似文献
16.
Sodium chloride (NaCl) is an essential ingredient to control the functional properties of wheat dough and bread quality. This study investigated the effect of NaCl at 0, 1 and 2%, (w/w, flour base) on the gluten network formation during dough development, the dough rheology, and the baking characteristics of two commercial flours containing different levels of protein (9.0 and 13.5%) and with different glutenin-to-gliadin ratios. Examination of the dough structure by confocal microscopy at different stages of mixing show that the gluten network formation was delayed and the formation of elongated fibril protein structure at the end of dough development when NaCl was used. The fibril structure of protein influenced the dough strength, as determined by strain hardening coefficient and hardening index obtained from the large deformation extension measurements. NaCl had a greater effect on enhancing the strength of dough prepared from the low protein flour compared to those from the high protein flour. The effect of NaCl on loaf volume and crumb structure of bread followed a similar trend. These results indicate that the effect of NaCl on dough strength and bread quality may be partially compensated by choosing flour with an appropriate amount and quality of gluten protein. 相似文献
17.
《Journal of Cereal Science》2002,35(2):119-128
Hard and soft wheat flours, which were used in the study, resulted in good and poor quality chapatis respectively. Gluten was isolated and interchanged among the two whole wheat flours and studied by scanning electron microscopy for its influence on structural characteristics of dough and its relation to chapati-making quality. Microscopic observations clearly indicated that larger gluten strands covered starch granules in hard wheat flour dough, while gluten was short and starch granules exposed in dough prepared from soft wheat flour. Greater film forming ability of gluten in hard wheat flour dough manifested in long and bulky starch strands interwoven with protein matrix in its chapati crumb. Higher moisture retention and starch gelatinization as a consequence of greater film forming ability of gluten in hard wheat flour resulted in pliable and soft textured chapati. 相似文献
18.
为了探究花后养分供应对小麦加工品质的效应,选用不同筋力的春小麦品种克旱19(KH19)和龙麦33(LM33)为试验材料,通过齐穗后叶面喷施5%蔗糖和2%尿素,分析籽粒建成期籽粒中氮含量的变化、成熟期籽粒蛋白质及其各组分含量的变化与面粉加工品质(面筋含量、粉质特性和拉伸特性)的关系。结果表明,与对照(CK)相比,蔗糖处理后小麦籽粒含氮量升高幅度最大;蔗糖和尿素的喷施均增加了小麦籽粒总蛋白质含量(KH19:8.34%,6.67%; LM33:9.36%,6.66%)及蛋白质各组分含量,蔗糖处理后小麦籽粒中蛋白质含量比尿素处理的高1%~3%;蔗糖处理后麦谷蛋白+醇溶蛋白含量在总蛋白中的比例下降1~5%;蔗糖和尿素处理均提高了小麦籽粒的干、湿面筋含量、面粉吸水率和面团形成时间;尿素处理延长了面团断裂时间与面团稳定时间,而蔗糖处理缩短了面团断裂时间与面团稳定时间;尿素处理增加了小麦拉伸能量(拉伸面积),而蔗糖处理降低了拉伸能量,尿素处理较蔗糖处理对面团的拉伸比值影响更大。 相似文献
19.
甘肃冬小麦品种品质性状分析与评价 总被引:1,自引:0,他引:1
为了全面掌握甘肃冬小麦的品质状况,以甘肃省冬小麦主产区100个小麦品种(系)为供试材料,采用AACC国标分析方法对其籽粒蛋白质品质、磨粉品质及面团流变学特性进行检测和分析。结果表明,甘肃冬小麦品种具有较高的蛋白质、湿面筋含量和吸水率,但面筋强度较低,形成时间、稳定时间较短,最大抗延阻力和拉伸面积较小,加工品质与国内主产麦区存在一定的差距,商品率低。甘肃冬小麦品种整体以中筋小麦为主。建议在今后育种过程中加强对品质性状的选择,以进一步提升小麦品种质量水平。 相似文献
20.
为给黑小麦加工品质评价及相关加工企业的原料选择与质量控制提供参考依据,选用国内推广的10个黑小麦品种为原料,对其蛋白质品质、粉质参数、面条蒸煮品质及其关系进行了分析.结果表明,黑小麦的蛋白质含量、谷蛋白大聚体(GMP)、谷蛋白溶涨指数(SIG)及蛋白组分中的醇溶蛋白和谷蛋白含量均低于对照小偃6号;湿面筋含量、面筋指数、沉淀值及粉质参数均优于小偃6号.黑小麦的沉淀值、SIG值和GMP含量、评价值与面条蒸煮干物质失落率呈极显著或显著负相关,逐步回归分析表明,SIG值和GMP与面条蒸煮干物质失落率的关系最为密切,是黑小麦面条品质评价的有效预测指标.黑小麦76、黑宝石、黑小麦、ZL97(6)和贞选1号具有较好的面条加工适用性. 相似文献