Study and Formulation of Composite Flours Based on Gluten Flour and Local Cereal Flours: Fonio, Millet and Sorghum

This study makes it possible to establish baking flours of nutritional quality and technologically acceptable following the increase in their rheological parameters due to the insertion of gluten flour. The composite flours were obtained using the Philips mixer type (model HR2811). The nutritional qualities of the formulated flours were determined by the Kjeldahl, AOAC 985-29, UV-VIS spectrophotometry (DR 5000;HACH and LANGE, France) and Soxhlet gravimetric methods. The compounds obtained are respectively: Protein, carbohydrate, lipid, micronutrient and vitamin contents. Monitoring the analysis of functional properties (water and oil absorption capacity) as well as baking value.

Gluten-Free Bread Enriched with Vegetable Flours

The effects of different vegetable flours (broccoli, cauliflower, artichoke, fennel, zucchini and mushroom) added to gluten-free bread on sensory quality, antioxidant properties and glycemic response were assessed. Among the vegetable flours, the addition of fennel flour significantly improved sensory bread quality. Artichoke flour has the highest phenolic (26.51 ± 1.92 mg/g dw) and flavonoid content (26.43 ± 1.93 mg/g dw). Even though the content of total phenol and flavonoids in vegetable flours was higher when compared to supplemented bread, the addition of artichoke and zucchini flours increased the total phenolic and flavonoid content and improved antioxidant activity. The incorporation of high level of vegetable flours (15%) also decreased the glycemic index of bread, in particular with artichoke and zucchini flours (59 ± 1.21 and 62 ± 0.49, respectively). To sum up, the results are very interesting because the addition of vegetable flours into gluten-free bread can improve nutritional and sensory properties of bread.

Rheological, Organoleptical and Quality Characteristics of Gluten-Free Rice Cakes Formulated with Sorghum and Germinated Chickpea Flours

Gluten-free bakery products are produced for people suffering from celiac disease due to sensitivity to gluten. So, the aim of this work was to study the effect of partial substitution of rice flour at 20%, 30% and 40% with sorghum and germinated chickpea flours on rheological, physical, sensory properties and staling rate of prepared gluten-free cake. Obtained results showed that germinated chickpea flour had the highest contents of crude protein (23.62%), lipids (4.89%) and crude fibers (5.76%) as compared to other grain flours. Gradual increase in gelatinization temperature and decrease in maximum viscosity and setback were fond of cake batters with increasing the substituting levels of rice flour from 20% to 40% with sorghum or germinated chickpea flours in comparison to rice flour batter. No significant difference was observed in specific volume between rice cake and cake containing 20% of germinated chickpea and sorghum flours which given 2.71, 2.62 and 2.56 cm3/g, respectively. Data also revealed that gluten-free cake lightness (L*) and total intensity significantly increased with 40% of sorghum flour followed by 30 and 20% of sorghum flour. Substitution of 40% rice flour with germinated chickpea flour resulted in significant high in redness (a*), yellowness (b*) and chroma of gluten-free cake being 11.95, 33.72 and 35.77, respectively followed by substituted levels 30% and 20% which attributed to their natural yellow pigments compared with other investigated samples. Overall acceptability of gluten-free cakes was improved after adding 20, 30% of sorghum flour and 20% of germinated chickpea flour which being 90.7, 88.6 and 87.5, respectively compared to rice flour cake (88.4). Rice flour cake was more freshness than wheat flour cake and other treatments during storage duration. After 6 days, rice cake had significant high freshness (306.2%) followed by gluten-free cake samples with 20% of sorghum or germinated chickpea flours which given 294.5% and 289.4%, respectively. Generally, it could be concluded that the quality and nutritional properties of gluten-free rice cakes could be improved when using 20%, 30% of sorghum flour and 20% of germinated chickpea flour as substitution levels of rice flour.

酶法脱酰胺对无麸质玉米薄饼品质的影响

本实验采用蛋白质谷氨酰胺酶(PG)对玉米粉进行酶法改性,研究不同酶解时间(0,2,4,8,16 h)对玉米粉的脱酰胺度、持水持油能力、糊化特性、蛋白质二级结构以及无麸质玉米薄饼品质的影响。结果表明:适度脱酰胺会促使玉米蛋白二级结构的变化,进而改善玉米粉的持水持油能力,提高玉米粉的糊化温度,提升无麸质玉米薄饼的比体积,改善薄饼的质构品质。其中PG酶处理4 h时的感官评分最高,风味较好,此时与对照组相比,无麸质玉米薄饼的比体积由1.24增大到了1.61 mL/g,感官总评分从74±4.91分上升到了83±11.91分。综上,研究结果表明适当的PG处理可以改善玉米蛋白的性质从而提高无麸质玉米薄饼品质,为PG酶的应用提供科学依据和技术指导。

紫色马铃薯糕加工工艺参数优化

以低筋面粉和紫色马铃薯为主要原料制作紫色马铃薯糕,采用单因素和正交试验优化紫色马铃薯糕的最佳加工工艺参数,并以感官评分为指标,对该工艺参数下制作的紫色马铃薯糕进行客观评价。结果表明,制作紫色马铃薯糕的最佳工艺参数为紫色马铃薯与低筋面粉总重200 g,其比例35∶65,绵白糖添加量35 g,酵母粉添加量1.5 g,蒸制时间20 min。该工艺条件下制作的紫色马铃薯糕色泽艳丽且均匀,呈天然紫色,松软有弹性,外形完整饱满,口感细腻,富含花青素,具有较高的营养价值,适合婴幼儿及中老年人食用,极大丰富了糕点类食物的市场多样性,具有较高的推广价值。

野生二粒小麦和普通小麦及其渐渗系全麦与脱麸面粉蛋白分析

为了解野生二粒小麦籽粒蛋白特性对普通小麦全麦面粉和脱麸面粉的改良价值,以高产弱筋小麦品种川农16(CN16)为母本,分别与籽粒蛋白含量存在显著差异的四倍体野生二粒小麦D1和D97进行远缘杂交,按高产性状定向选择并连续自交获得稳定高世代渐渗系共61份,本研究对61份渐渗系、7份野生二粒小麦和6份普通小麦进行了全麦和脱麸面粉粗蛋白质含量及其各蛋白组分含量分析、比较。结果显示,野生二粒小麦的籽粒粗蛋白(GPC)及其清蛋白、球蛋白、醇溶蛋白、谷蛋白含量均较普通小麦具有更丰富的遗传多样性,各蛋白组分含量均显著高于普通小麦。61份渐渗系中,分别有54.10%和52.46%的材料全麦面粉和脱麸面粉的粗蛋白含量显著高于母本CN16,全麦和脱麸面粉蛋白质含量最高达17.77%和17.62%,较CN16分别提高了5.05和5.33个百分点;全麦和脱麸面粉的清蛋白、球蛋白、醇溶蛋白、谷蛋白分别有18.03%和32.79%、50.82%和62.30%、67.21%和77.05%、37.70%和81.97%的株系高于母本CN16。全麦和脱麸面粉的粗蛋白含量与醇溶蛋白和谷蛋白含量间、贮藏蛋白的各组分间、可溶性与不可溶性谷蛋白含量间均呈显著正相关(P<0.01)。因此,通过远缘杂交能有效地将野生二粒小麦高蛋白含量特性转移到普通小麦中,并能提高普通小麦的所有贮藏蛋白组分含量,对丰富小麦蛋白含量的遗传多样性具有重要意义。

阿拉伯木聚糖对面团及面制品品质影响的研究进展

阿拉伯木聚糖(arabinoxylan,AX)作为一种膳食纤维,在面团加工过程中会与其主要组分发生相互作用,从而影响面团特性和面制品品质。文章分析了AX与面团中面筋蛋白和小麦淀粉间的相互作用,总结归纳了其对面团持水性、流变性和发酵特性等方面的影响规律,概述了近年来国内外关于AX在应用于蒸煮类、焙烤类、油炸类面制品等方面所取得的研究成果,指出了目前在AX的精细结构、链构象特征、量效关系等方面需要解决的一些重要问题,并针对这些问题提出了今后的研究建议,以期推动AX在面制品行业中的理论研究和实际应用。

活性大豆粉对小麦后路粉面筋蛋白结构及流变特性的影响

在后路粉中分别添加不同比例的活性大豆粉,并将其作为原料制备面筋蛋白。在测定面筋蛋白基本组分的基础上再分别对面筋蛋白的宏观特性与微观结构性质进行研究,探讨活性大豆粉对后路粉面筋蛋白理化性质与结构特性的影响。实验发现,与对照组相比,添加了活性大豆粉的后路粉面筋蛋白湿面筋含量、灰分、蛋白含量、吸水率、面筋指数与麦谷蛋白大聚体均呈现上升趋势(P≤0.05)。活性大豆粉的添加显著降低了后路粉面筋蛋白的游离巯基含量并且削弱了其表面疏水作用,流变学与拉伸实验结果表明实验组面筋蛋白中的储能模量、损失模量均大于对照组,添加活性大豆粉的后路粉面筋蛋白黏弹性与抗变形能力得到增强。傅里叶变换红外光谱与内源荧光光谱均显示活性大豆粉的添加可以将后路粉面筋蛋白的空间结构向稳定有序转变。

不同藜麦粉添加量对海绵蛋糕面糊特性及烘焙特性的影响

为提高无麸质蛋糕的品质,通过测定不同藜麦粉添加量的面糊的流变特性和密度;蛋糕的比容、烘焙损失率、色差、感官评分以及贮藏7 d后蛋糕的质构特性、水分分布和老化焓值等指标,探究藜麦粉对无麸质面糊特性及蛋糕品质的影响。结果表明,面糊的弹性模量(G′)、黏性模量(G″)和密度与藜麦粉添加量呈正相关,进而增大了蛋糕比容并降低烘焙损失率,蛋糕气孔分布更加均匀。高比例的藜麦粉(30%~50%)能有效延缓蛋糕的老化。在贮藏7 d后,对照组和50%藜麦粉老化焓值分别增加至1.42 J/g和0.92 J/g。综上,添加藜麦粉能够显著提高面糊的流变特性和蛋糕的烘焙特性,延缓蛋糕老化。综合蛋糕感官评分和老化特性,藜麦粉添加量为30%时较为适宜,可以赋予无麸质海绵蛋糕更好的品质。

冷冻面制品品质改良研究进展

冷冻面制品具有方便快捷、保质期长、便于储藏运输、生产效率高、易实现产品质量标准化等优点,其产业规模发展迅速。但在其生产和冷冻过程中,由不稳定的环境条件所引起的产品品质劣变不容忽视,仍需对其品质改良方法进行探究。本文从引起冷冻面制品品质劣变的影响因素为切入点,从生产工艺优化和添加剂使用2个方面对目前冷冻面制品改良方法的研究进展进行了综述,包括生产方式、加工条件、冷冻解冻方式、辅助冷冻技术以及各类食品添加剂的使用情况,对冷冻面制品品质改良的未来研究前景进行了展望,旨在为其创新性发展和研究提供借鉴。

豆腐柴对面团面筋网络结构劣变影响研究

开发豆腐柴面条是挖掘豆腐柴资源的有效增值途径,但豆腐柴的存在使得面团的形成时间和稳定时间显著缩短。以不同添加量的豆腐柴-小麦粉混粉面团为研究对象,从分子及原子尺度上研究面团面筋网络结构的变化。结果发现,宏观上的劣变归因于分子尺度上谷蛋白高分子聚合体含量的降低和二级结构的变化(α-螺旋结构降低、β-折叠结构的增多、无规则卷曲增多),而分子尺度结构的变化又是由原子尺度上面团中化学作用力所决定,即添加豆腐柴后面团中占优势的疏水作用变成了共价键,而面团中二硫键虽趋于稳定态的g-g-g构型但含量无显著变化,这也是豆腐柴面团稳定时间和形成时间降低的根本原因。

谷朊粉添加量对面粉糊化和馒头品质的影响

研究了谷朊粉对小麦粉糊化特性的影响,并对添加谷朊粉的馒头进行了质构特性和感官评价分析,为制备高品质的面食制品提供理论依据。结果表明,谷朊粉添加量对小麦粉糊化峰值温度、终止温度及糊化焓的影响存在差异性,对馒头的弹性和黏聚性无显著性影响。添加适量谷朊粉可增大馒头的硬度、黏性和咀嚼度,且外观、色泽等感官指标也明显改善,当添加量为6%时,面粉的糊化温度最高,馒头综合品质最佳。

挤压型无麸质马铃薯全粉面条工艺优化及品质评价

针对马铃薯全粉缺乏麸质蛋白但又适宜开发制作无麸质食品的特点,以10%木薯淀粉+6%大米水解蛋白+1%食盐与马铃薯全粉混合,经响应面试验优化双螺杆挤压无麸质挤压型马铃薯全粉面条制作工艺。结果表明,在挤压机喂料速度19.12 Hz、螺杆转速20.52 Hz、Ⅱ区温度75℃条件下,复配马铃薯全粉面条的感官评分最高,色泽良好,接近市售小麦面条。随着冻融次数的增加,复配马铃薯全粉面条与马铃薯全粉面条、小麦面条的硬度、弹性、胶着度和咀嚼度均有所降低,吸水率也逐渐降低,断条率逐渐增加,但复配粉面条的品质变化程度优于马铃薯全粉面条,稍逊色于小麦面条。由于淀粉发生老化以及双螺杆挤压处理引起淀粉和蛋白质变性,贮藏期间复配粉面条的弹性和硬度接近于小麦粉面条,而咀嚼度大于小麦粉面条。

小麦粉品质特性与发面饼加工品质关系的研究

为发面饼工业化加工选取合适的小麦粉原料,选取了湿面筋含量为24.4%~32.7%的12个小麦品种,测定了小麦粉的理化特性、粉质特性、粘度特性、发酵流变特性,分析了小麦粉特性与发面饼品质之间的相关性。结果表明:随着湿面筋含量的升高面团的发酵高度、总体积、保留系数(R)及发面饼的比容都随之增加(P<0.05),而发面饼的最大剪切力呈现出先增加后减小的趋势,感官评价得分呈现出先减小后增加的趋势。通过相关性分析可知,小麦粉的湿面筋含量、峰值粘度、最低粘度、最终粘度、回生值、峰值时间、粉质质量指数、最大发酵高度(Hm)、最终发酵高度(h)与发面饼的比容呈显著正相关,淀粉含量和面筋指数与发面饼的比容呈负相关;小麦粉的淀粉含量和蛋白质含量与发面饼的最大剪切力呈负相关,湿面筋含量与发面饼的最大剪切力呈正相关。湿面筋含量在30.0%~33.0%且面筋指数在70~78、粉质质量指数在58.5~69.5、Hm在38.1~55.1 mm和R在95%以上的小麦粉比较适于制作发面饼。

猴头菇粉粒度对低筋小麦面团特性与酥性饼干感官品质的影响

为评价不同粒度猴头菇粉对低筋小麦面团特性与酥性饼干感官品质的影响,制备了3种不同粒度(50,80,120目)的猴头菇粉,并探究猴头菇粉物性特征及其对小麦粉粉质特性、面团拉伸特性、面团动态流变学特性、小麦粉糊化特性、酥性饼干感官评分与质构特性的影响。结果表明,随着猴头菇粉粒度的降低,其持水性与持油性也在降低,当粒度由50目降低至80目时,面团形成时间与弱化值降低,面团稳定时间、粉质质量指数、拉伸阻力、延伸度、储能模量(G′)、损耗模量(G″)、面团黏度等均会增大,面团品质得到了较大提升,这时饼干感官评分最高,达90.31分,硬度值仅为3043 g;但猴头菇粉粒度继续降低至120目时,粉质质量指数、面团稳定时间、拉伸阻力、延伸度、G′、G″和饼干感官评分降低、硬度增加。研究表明,猴头菇粉粒度对面团特性与酥性饼干感官品质影响较大,合理控制其粒度有利于保证面团与饼干品质较好,对于酥性饼干而言,建议猴头菇粉粒度控制在80目。

低GI休闲即食土豆泥的研制

以土豆全粉、白芸豆α-淀粉酶、谷朊粉为原料,通过单因素试验和正交试验设计产品配方,通过正交试验的结果进行体外低GI测试,研制出一款低GI即食土豆泥。结果表明,土豆全粉最佳粒度为120目,复水性能和黏度良好,最佳配方为白芸豆α-淀粉酶3%,谷朊粉添加量2%,土豆全粉添加量15%,食盐添加量2%。此配方下的土豆泥口感良好、结块较少、质地均匀、营养价值高,低GI值为47.63,属于低GI食品。

基于云计算的食品品质实时在线光谱检测系统实现

为解决光谱检测技术中的模型维护成本高、扩展性不足和光谱资源共享性较差等问题,改善专用便携式光谱仪检测分析对象的局限性,将光谱数据采集和分析功能进行解耦,使用Android开发工具和Java语言,开发了以便携式光谱仪、手机终端和云服务器构成的光谱实时在线检测系统,基于云计算服务完成云端光谱模型的建立与分析。以小麦粉面筋定量分析为例,采用多元散射校正、竞争性自适应重加权采样法、偏最小二乘回归算法建立小麦粉面筋定量分析模型,测试25个小麦粉样本并返回分析结果,验证系统可靠性。结果表明,25个小麦粉样本面筋含量误差范围在0~0.7%,分析结果消耗时间平均为7.09 s,误差范围和分析结果耗时均在可接受范围内,验证了基于云计算服务实现光谱实时在线检测分析是可行的。通过部署不同食品主要成分的定量分析模型至云端,系统可实现多种食品品质的实时在线检测分析,希望为多场景下食品品质快速无损检测提供技术参考。

Effect of Storage Temperature and Periods on Some Characteristics of Wheat Flour Quality

A laboratory experiment has been designed and implemented to study the effects of storage temperatures (27.5°C and 37.5°C) and storage periods (day, 3 days, 10 days, 20 days and 30 days) in normal conditions and relative humidity on the characteristics of wheat flour quality, as well as some of the chemical characteristics of flour (moisture content and ratio of wet gluten), the physical properties (color and falling number). Increasing the storage temperature from 27.5°C to 37.5°C has led to decreasing moisture content of flour stored under storage relative humidity of 38% - 70%. It has also resulted in extending the storage period from 1 day to 10 days to a decrease in moisture content of flour, and this decline has increased the storage period up to thirty days. The overlap between these two factors has been significantly affective. As the storage temperature of flour increased from 27.5°C to 37.5°C, the percentage of wet gluten has been increased too, and the storage period was extended to ten days. This has led to a significant increase in the percentage of wet gluten flour. In addition, there was a significant response to the effective overlap between the storage temperatures and periods of storage under study in this manner. Increasing the storage temperature from 27.5°C to 37.5°C has led to significantly increased values of the color of the stored flour. Besides, increasing the storage period one day more has led to decreasing the values of the color of the stored flour. However, there has been no significant change to the subsequent periods of storage. The overlap between both factors of temperature and storage periods has a significant effect on the flour color. There has been a significant decrease of the enzyme activity (the height values of the falling No.). But there is a noticeable increase to the falling No. values of the stored flour by 37.5°C when increasing the storage periods from one day to ten days and thirty days. This effect, nonetheless, has not reached the significant level.

茯苓饼干配方对其品质的影响研究

以茯苓和低筋面粉为主要原料制作饼干,研究原料配方对茯苓饼干品质的影响。选取茯苓粉、黄油、鸡蛋液及绵白糖的添加量4个因素,通过单因素试验及正交试验,以感官评定得分为指标,确定茯苓饼干的最佳配方。结果表明,每100 g低筋面粉中添加25 g茯苓粉,25 g玉米淀粉,40 g黄油,65 g鸡蛋液和25 g绵白糖,制备的茯苓饼干口感、品质最佳。

氯化钠对小麦特二粉面筋聚集特性的影响

为探究氯化钠改良小麦面团特性的机理,以小麦特二粉为材料,利用面筋聚集仪等仪器分析了氯化钠质量浓度对面筋聚集过程中峰值时间(PMT)、峰值扭矩(BEM)、启动能量(S_(1))、稳定能量(S_(2))和聚集能量(S_(3))的影响,以及对湿面筋含量、蛋白质提取量和面筋显微结构的影响。结果表明:随氯化钠质量浓度增加PMT呈直线上升趋势,氯化钠的添加延长了面筋聚合时间,降低了面筋聚集速度;氯化钠质量浓度对BEM影响不显著,说明氯化钠的添加对面筋蛋白网络结构的强化不显著;随着氯化钠质量浓度的增加,S_(1)未有显著增加,而S_(2)和S_(3)增加显著;在面筋聚集过程中,添加氯化钠减少了洗出的湿面筋量,却增加了面筋蛋白网络的韧性;氯化钠使提取的水溶蛋白、盐溶蛋白和醇溶蛋白含量的变化不稳定,但可使面筋网格结构更加均匀,面筋蛋白更好地包裹淀粉颗粒,有效降低了淀粉颗粒的破碎。氯化钠改变了小麦面团的面筋网络形成进而影响其面筋的聚集特性。