Comparison of different rice flour- and wheat flour-based butter cookies for acrylamide formation

Acrylamide (AcA) contents of different rice flour- and wheat flour-based butter cookies baked at 130 °C for 20, 55, or 90 min were investigated. AcA contents of different flour-based cookies increased with baking time. Color parameters in terms of CIE L*, b*, C*, and ΔE values showed significant opposite correlation to the AcA formation in each of the raw flour cookie. The cookies based on white rice flour had the lowest AcA contents ranging from not detectable (ND) to 204 μg/kg, followed by cookies based on brown rice flour (ND to 450 μg/kg), white wheat flour (155 μg/kg to 661 μg/kg), and whole wheat flour (306 μg/kg to 982 μg/kg). Considerably lower AcA levels were found in the rice flour-based cookies than in the wheat flour-based cookies, as well as in the milled flour-based cookies than in the whole-grain cookies. Although the flour source was considered to play a primary role in determining the AcA content, AcA content was apparently not dependent on the quantities of reducing sugars and free asparagine in the starting raw flour and cookies during baking. In summary, given its reducing potential for AcA formation, rice flour could be used in the production of cookies safe from heat-induced contaminants.     

燕麦粉对强筋面粉品质特性及其面包品质的影响

面包逐渐成为中国人营养早餐的选择,但面包中膳食纤维含量较低。燕麦是一种食疗兼备的特色杂粮作物,富含膳食纤维。为拓宽燕麦的应用范围、提高面包的营养价值,以优质强筋小麦品种藁优2018和燕麦粉为材料,研究了燕麦粉对小麦面粉面团流变学特性及淀粉糊化特性的影响,并进行了燕麦面包实验室制作和质构分析。结果表明,随着燕麦粉添加比例的增加,面团吸水率逐渐增加,面团稳定时间和粉质质量指数先减小后增加;面团拉伸能量、拉伸长度、拉伸阻力、最大拉伸阻力均逐渐减小。说明燕麦粉对面团拉伸特性各参数均有弱化作用。在藁优2018小麦面粉中添加10%的燕麦粉,既能保证面包的感官品质,又能满足面包营养最大化。     

谷朊粉对不同筋力小麦粉及面包品质的改良效果

为了探讨谷朊粉对我国不同筋力小麦粉面包加工品质的影响,选用师栾02-1(强筋)、石优17(中强筋)、矮抗58(中筋)和济麦22(弱筋)等四种不同筋力的小麦粉进行谷朊粉添加试验,谷朊粉添加水平分别占小麦粉质量的0%、1%、3%、5%、7%、9%。对不同处理的小麦粉样品进行面包烘焙试验和理化性质测试,结果表明,谷朊粉的添加使面包体积迅速增大,对感官特性在一定范围内具有改良作用,谷朊粉添加过量会出现面包芯孔洞变大等不良影响;不同筋力小麦粉的最适添加量不同,师栾02-1、石优17、矮抗58和济麦22的最适添加量分别为面粉质量的1%～2%、3%～5%、7%、9%。     

小偃22小麦粉馒头加工技术研究

为了提高馒头的加工品质,满足中国馒头加工业的迫切要求,以小偃22小麦粉为材料,研究其馒头加工的加水量、和面时间以及大豆蛋白、小麦胚芽、卵磷脂对馒头品质的影响。结果表明,加水量、和面时间以及大豆蛋白、小麦胚芽、卵磷脂的添加量对馒头回复性、内聚性和咀嚼性影响显著或极显著。随加水量增加,馒头的内聚性和回复性先增后减,咀嚼性呈减小趋势;随和面时间与大豆蛋白添加量的增加,馒头内聚性和回复性均减小,咀嚼性均先减后增;随小麦胚芽添加量的增加,馒头的内聚性与回复性先减后增,咀嚼性先减后增;随卵磷脂添加量的增加,内聚性先增后减,咀嚼性先减后增,回复性减小。优质馒头制作的适宜加水量、和面时间以及大豆蛋白、卵磷脂和小麦胚芽添加量分别为粉质吸水率的80％、4min、2%、0．4％、8％。     

维生素C对面包烘焙品质及面团特性的影响

为研究添加维生素C对不同筋力小麦粉面包烘焙品质的改良效果,以师栾02-1、石优17、矮抗58和济麦22四个不同筋力小麦品种的面粉为材料,研究了维生素C对面包烘焙特性及面团流变性特性的影响。结果表明,添加维生素C对强筋品种师栾02-1和中筋品种矮抗58的面包体积有显著改良作用,而对4个品种的面包外观、面包芯色泽、面包芯质地和面包芯纹理结构均没有影响。添加维生素C对面团的弱化度和最大拉伸阻力等流变学特性的改良作用也因小麦品种而异,而且改良作用有限,不能改变小麦粉本身的加工属性。     

豆渣馒头加工工艺研究

研究了豆腐渣粉、谷朊粉、酵母添加量对馒头感官品质和质构特性(TPA)的影响,通过单因素和正交试验确定豆渣馒头的最佳工艺条件,并采用环境扫描电镜研究豆渣馒头的微观结构.结果表明:小麦面粉85 g、豆腐渣粉15 g、谷朊粉1g、活性干酵母0.6g、发酵时间120 min时制作的豆渣馒头具有良好的品质和口感.电镜分析显示,豆...     

面筋蛋白对小麦粉理化性质及面包烘焙品质的影响

为明确不同类型小麦的面粉改良方案,为我国优质面包专用粉的生产提供理论与技术支持,以三个筋力不同的小麦品种宁麦13、扬麦16和郑麦9023为材料,通过洗面筋法提取各供试材料的湿面筋,将其冷冻干燥后按照7%、8%、9%、10%、11%的添加比例与各自面粉进行配比,对配粉的面包烘焙品质、面粉理化性质和面团流变学特性进行了测定分析。结果发现,随着面筋蛋白添加量的提高,配粉的蛋白质、湿面筋、谷蛋白大聚体(GMP)含量和沉降值逐步上升;粘度参数和面团弱化度有所下降;糊化温度和糊化时间呈上升趋势。在同一添加量下,强筋小麦的烘焙品质和面粉理化性质始终优于中筋小麦和弱筋小麦。随着面筋蛋白添加量的提高,面包体积、弹性、回复性、内聚力增大,而硬度、咀嚼性减小,感官品质得到改善。面筋蛋白添加量超过一定范围(宁麦13、扬麦16添加9%,郑麦9023添加8%),面包品质改良效果变缓,且色泽不断加深。综上所述,适量添加面筋蛋白可改变面粉的理化性质,提高其面包烘焙品质;配粉的蛋白质含量为18%左右是最经济的面包烘焙品质改良方案。     

不同热处理小米粉对小麦粉面团流变学特性的影响

为探究经过不同热处理的小米粉对小麦面团品质的影响,将小米粉分别进行膨化、蒸制和炒制热处理,经蒸制和炒制的小米粉按照0、5%、10%、15%、20%、25%、30%和35%的比例添加到小麦粉中,膨化小米粉按照0、2%、4%、6%和8%的比例添加到小麦粉中,分别对混合粉面团的流变学特性进行研究。结果表明,不同热处理小米粉的灰分、蛋白质、脂肪、总淀粉和总膳食纤维含量均下降,可溶性膳食纤维含量升高(炒制组除外)。不同热处理小米粉的添加量对小麦面团粉质特性和拉伸特性的影响存在显著差异(P0.05);面团的粉质特性随小米粉含量的增加而减弱;添加蒸制和炒制小米粉的面团粉质特性较好。随着小米粉含量的增加,添加膨化小米粉的面团的拉伸特性呈先增强后减弱的趋势,添加蒸制和炒制小米粉的面团的拉伸特性则逐渐减弱,且3个处理的拉伸特性都随醒面时间的延长有所增强,不同处理之间的拉伸特性差别不大。     

Effect of Baking Process on Added Folic Acid and Endogenous Folates Stability in Wheat and Rye Breads

In Poland bread as a staple food both made from wheat and rye flour can be a potential product for future fortification with folic acid. The objective of the study was to examine the effect of fermentation and baking on added folic acid and some endogenous folates stability during breadmaking of rye and wheat breads. Breads were produced using the formulation containing enriched flour with 0.2 mg folic acid/100 g product, baker’s yeast and additionally ascorbic acid for wheat bread and lactic acid for rye bread. Folates were extracted with Hepes/Ches buffer (pH = 7.85) followed by destruction of matrix by amylase and protease and deconjugation with rat serum conjugase. Affinity chromatography (FBP bovine milk) was used to purify and concentrate samples. The folates were separated by HPLC with C18 column and with a combination of fluorescence and UV detection. For both rye and wheat breads there was a decrease of folic acid from flour to bread stage. The total losses depend on baking process and ranged from 12 to 21%. Some changes in the level of different native folate forms during the stage of baking process were also observed.     

南方馒头加工中的辅料配比优化研究

为给改进实验室馒头制作和评价方法提供参考依据,以3种弱筋面粉(市售美玫牌面粉;磨自弱筋小麦品种宁麦9号和生选6号的面粉)为基础粉,采用响应面法中心组合试验设计,研究了酵母、糖、起酥油和泡打粉含量对南方馒头加工品质的影响,并建立了南方馒头感官得分与因素变量的二次回归模型方程,该模型回归显著。响应面分析结果表明,南方馒头加工中的最佳辅料配比条件为:酵母含量1.0%、糖含量15.0%、起酥油含量1.8%、泡打粉含量1.0%。在此配比条件下,3种弱筋粉制作南方馒头的感官得分预测值分别为86.5、88.3和84.5分,验证值分别为86.1、87.8和83.7分,与预测值的相对误差分别只有0.46%、0.57%和0.95%。     

Improvement of dietary fiber,ferulic acid and calcium contents in pan bread enriched with nejayote food additive from white maize (Zea mays)

Nejayote is the wastewater from the alkaline-cooking of maize and its solids are rich in dietary fiber (45.3%), calcium (5.7%) and ferulic acid (219 mg/100 g). Nejayote solids were used to develop a food additive (NS) consisting of 80% nejayote solids and 20% gluten. NS was incorporated at 3, 6 or 9%, in wheat flour to increase the dietary fiber, calcium, phenolics and antioxidant capacity of breads. The addition of 9% NS did not affect overall baking performance and bread quality but increased dietary fiber up to 54% in composite breads. Moreover, enriched breads contained about 745 times more free ferulic acid and increased approximately 70% their antioxidant capacity. Two slices of bread (64 g) supplemented with 9% of NS provided 29% of the recommended calcium intake. Thus, the NS could be used as a value-added food-ingredient for the preparation of composite bakery-products with improved dietary fiber, calcium, nutraceuticals and antioxidant properties.     

Effect of different breadmaking methods on thiamine,riboflavin and pyridoxine contents of wheat bread

Whole wheat bread represents an important source of dietary fibre and micronutrients such as minerals and vitamins (B1, B2, B6). Thus it is important to control losses of vitamins during milling and breadmaking. The classical (yeast) breadmaking process is a relatively severe, leading to a 48% loss of thiamine in white bread. Longer fermentation times (white bread) led to higher thiamine concentrations (2.5 μg/g) than shorter fermentations (1.4 μg/g). In whole wheat bread, separate yeast or sourdough fermentations maintained vitamin B1 levels close to that of the original flour (5.5 μg/g). Whole wheat breadmaking with yeast (from kneading to final bread), in long fermentations, resulted in a 30% enrichment in riboflavin. The pyridoxine concentration of whole wheat flour is 5-fold higher than white flour, but classical fermentations resulted in a severe depletion in pyridoxine (−47%). The use of mixed fermentation conditions (yeast plus sourdough) had no synergistic impact on B vitamin levels. The classical breadmaking protocol is time-saving but does not result in maximal vitamin retention. Highest levels of B vitamins were achieved by long yeast fermentations.     

Studies on samh seeds (Mesembryanthemum forsskalei Hochst) growing in Saudi Arabia: 3. Utilization of samh seeds in bakery products

Samh seeds obtained from Al-Jouf area were ground into flour analyzed and used as a replacement for wheat in the ratio of 10, 20 and 30% for bread and 30, 60 100% for cookies. The rheological effect of the Samh flour on Saudi wheat flour was also studied. The bread and cookies obtained were evaluated physically and by sensory evaluation. The results obtained indicated that samh flour has high protein content and could be used as a replacement for wheat flour upto 30% without adversely affecting the bread specific volume much. Samh flour has improved the cookies appearance specially the colour (chocolate colour) and spreading ratio. The results also revealed that it is possible to make cookies from 100% samh flour. Due to the high protein content of the samh seeds the nutritional value of the bread and cookies made with samh flour will be improved. The results of the sensory evaluation of the bread and cookies indicated that the bread made with samh flour upto 30% has similar characters except for the crumb color and the overall acceptability which were rated as significantly inferior. The sensory evaluation of the cookies showed that the cookies made with samh flour upto 100% were significantly superior (p<0.05) to the cookies made with 100% wheat flour (control).     

The effect of infrared stabilized rice bran substitution on physicochemical and sensory properties of pan breads: Part I

Infrared stabilized rice bran (SRB) substitution to white wheat, wheat bran and whole grain wheat breads at the levels of 2.5, 5.0 and 10.0% was evaluated in terms of proximate composition, crumb color, dietary fiber, texture and sensory attributes. An increasing tendency was observed in crude fat and ash content of the breads. Redness (+a*), yellowness (+b*) chroma and redness (a*/b*) values were increased gradually with the addition of SRB. Crumb color was found to be darker when 10% of SRB was added to the breads. SRB inclusion did not affect the content of soluble dietary fiber while it significantly increased the insoluble and total dietary fiber contents of the breads (p < 0.05). In general, whole grain wheat bread differed from the other bread types in terms of textural behavior. Based on the overall acceptability scores, white wheat and wheat bran breads were sensory accepted up to 10% of flour replacement with rice bran, while substitution levels higher than 2.5% negatively affected the sensory scores of whole grain wheat bread.     

优质强筋小麦与运黑101复配粉的面包品质研究

为更广泛利用黑小麦,用优质强筋小麦运旱115、运旱618的面粉分别与中筋黑小麦运黑101的面粉进行搭配,研究了不同复配粉的面筋指数变化规律和面包加工特性。结果表明,两个优质强筋小麦粉与中筋黑小麦运黑101复配,可以显著改善中筋黑小麦运黑101的面筋指数、抗延阻力、稳定时间;优质强筋小麦粉与运黑101面粉占比相等时,运旱115、运旱618对运黑101的面筋指数改进率较大,分别为10.57%、10.51%。综合分析对面包品质影响较大的硬度、胶黏性、咀嚼性等质构指标,发现运旱115与运黑101配粉比例为8∶2、5∶5时,运旱618与运黑101配粉比例为7∶3、6∶4时,运黑101面粉品质改善显著,用其制作的面包体积大、品质好。     

Dough rheology and bread quality of wheat-chickpea flour blends

In this study, partial substitution of wheat flour with chickpea flour at the levels of 10, 20 and 30% was carried out to study their rheological and baking performance. Chickpea flour addition increased the water absorption and dough development time (p < 0.05), while, the extensibility of dough and the resistance to deformation were reduced. Regarding dough stability, it appears that 10% chickpea exhibited higher stability and resistance to mechanical mixing values than the control, while it decreased as the substitute level increases from 20% to 30%. The dough surface of the wheat dough and the blend with 10% was classified as “normal”, however the blend with 20% and 30% produced “sticky” dough surface. The presence of chickpea flour in dough affected bread quality in terms of volume, internal structure and texture. The color of crust and crumb got progressively darker as the level of chickpea flour substitution increased. While the substitution of wheat flour with 10% chickpea flour gave loaves as similar as control.     

Improvements in the qualities of gluten-free bread after using a protease obtained from Aspergillus oryzae

From a nutritional perspective, rice flour is one of the most valuable flours and it is suitable for preparing food for people suffering from wheat allergy. However, bread made from rice flour is very difficult to bake because it lacks gluten. We found that pre-fermenting of rice flour using Aspergillus oryzae facilitated a better formulation of gluten-free rice bread. Bread swelling was remarkably improved with a longer pre-fermenting period at 55 °C. The specific loaf volume (SLV) without polymeric thickeners after a 12 h fermentation was approximately 2.2-fold (2.98 ml/g) higher than that after 0 h (1.36 ml/g). An enzymatic assay of the batter indicated that protease activity during the pre-fermentation period increased from 0.38 to 1.44 U/ml and this activity correlated with bread swelling. Furthermore, a commercial protease from A. oryzae also produced similar results with an adequate SLV of 3.03 ml/g. Rheological analysis showed that batter treated with protease had an increased batter viscosity and decreased flour settling behavior because of the aggregation of flour particle after partial cleavage of storage proteins. These results indicated that the improved SLV was mainly because of an A. oryzae protease, which affected the batter rheology thereby improving gas retention before baking.     

Optimization of High-Protein Glutinous Rice Flour Production Using Response Surface Method

A response surface method was employed to study the effect of α-amylase concentration, hydrolysis temperature and time on the production of high protein glutinous rice flour (HPGRF). The suspension of glutinous rice flour (15%) that contained 6.52% protein was gelatinized and subsequently hydrolyzed by thermostable α-amylase. The hydrolysis yielded 0.144–0.222 g/g HPGRF with 29.4%–45.4% protein content. Hydrolysis time exerted a significant effect, while enzyme concentration and hydrolysis temperature showed insignificant effect on the protein content and production yield of HPGRF. The result of response surface method showed that the optimum condition for the production of HPGRF that contained at least 36% protein was treating gelatinized 15% glutinous rice flour suspension with 0.90 Kilo Novo α-amylase Unit (KNU)/g α-amylase at 80 °C for 99 min. By carrying out the predicted hydrolysis condition, HPGRF with 35.9% protein and 61.8% carbohydrates was resulted. The process yielded 0.172 g/g HPGRF. HPGRF contained higher amount of essential amino acids compared to glutinous rice flour. HPGRF had higher solubility and lower swelling power, and also showed no pasting peak compared with glutinous rice flour.     

禁用面粉增白剂后保证中国传统面食品色泽品质的对策

为了满足市场和消费者对面粉及其制品色泽品质的需求,针对国家《小麦粉》新标准(GB1355-2005)禁用增白剂的规定,探讨并提出了替代过氧苯甲酰(BPO)、保证中国面粉及其食品色泽品质的措施:第一,研制和开发生物型和营养型面粉改良剂,特别是以脂肪酶、α-淀粉酶、木聚糖酶等生物酶为主的一些酶制剂,靠酶的催化作用,既保证面制品表面及内部组织均匀、表皮光滑洁白,又消除了BPO类化学物质对人体健康的不利影响;第二,培育高自然白度小麦新品种,特别是种皮薄、出粉率高、胚乳色素低、多酚氧化酶(PPO)活性低的小麦新品种,用其生产高自然白度的面粉或不易褐变的食品,从原料上解决问题;第三,引导消费者正确对待面粉及食品白度问题,让消费者从营养和健康上认识BPO等化学增白剂的危害,了解小麦自然粉色的本质及面粉、食品色泽变化的原因,改变面粉及制品色泽越白越好的传统观念.     

Effect of extrusion cooking of sorghum flour on rheology,morphology and heating rate of sorghum–wheat composite dough

Addition of a gluten-free flour such as sorghum has negative impact on the quality of wheat dough for bread making. One of the methods which can be used to promote the quality of sorghum-wheat composite dough is to extrude the sorghum flour before incorporation. In this regard, to produce a dough with appropriate bakery properties sorghum flour was extruded at 110 °C and 160 °C die temperature with 10%, 14% and 18% feed moisture. The effect of extruded sorghum flour incorporation (10%) on rheological (farinography and stress relaxation behavior), morphological and temperature profile of sorghum-wheat composite dough were evaluated. Extrusion cooking altered the sorghum-wheat composite dough properties through partial gelatinization of starch granules. Addition of extruded sorghum flour increased the water absorption and dough development time but it decreased the dough stability. Native sorghum-wheat composite dough showed viscoelastic liquid-like behavior whereas addition of sorghum flour extrudate changed dough to a more viscoelastic solid-like structure. Maxwell model was more appropriate than Peleg model to describe the viscoelasticity of the sorghum-wheat composite dough. Extrusion cooking decreased composite dough elasticity and viscosity. Sorghum extrudate increased the heating rate of composite dough crumb during baking. Addition of extruded sorghum flour formed a non-uniform and less compact dough structure. As a result, dough containing extruded sorghum flour had a good potential for producing a high-yielding bread in a short time of baking.