大米浓缩蛋白对小麦面包生产工艺过程的影响

A. Shevchenko, S. Litvynchuk, Olga Koval
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摘要

小麦粉烘焙产品蛋白质含量低,质量较差,吸收水平也较低。为了解决这个问题,可以在烘焙产品的配方中引入完全蛋白质的来源。但是动物蛋白也可能是过敏原。另一种选择可以是浓缩物、水解物和分离植物源蛋白质,特别是从大米中获得的蛋白质。添加大米浓缩蛋白对小麦粉生面团和面包的微生物学、生化和构象变化有影响。随着大米浓缩蛋白用量的增加,面团的成气能力比对照样品下降8.3 ~ 20.8%。在含有大米浓缩蛋白的面团中,气体形成的强度较低,因为由于营养物质的可用性降低,发酵被推迟了。在加入4 - 8%大米浓缩蛋白的面团中,气体形成图上的第一个峰出现在65分钟后,而在对照样品中则出现在60分钟后。当添加剂添加量为16%时,第一个气相峰没有明确的定义。对照样品的第2个气体形成峰出现在150min后,大米浓缩蛋白样品的第2个气体形成峰出现在150min后,且形成峰不明确。红外光谱分析表明,大米浓缩蛋白的相对反射系数在面团揉制后和发酵后均较低。添加4%和8%的大米浓缩蛋白对形成糖的量没有影响,添加16%的大米浓缩蛋白使该指标降低1.6%。发酵糖的量减少了3.0 - 7.8%。因此,由于所获得的结果,可以跟踪面包制作工艺过程中的变化,以获得高蛋白质含量的面包
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The influence of rice protein concentrate on the technological process of wheat bread production
Bakery products from wheat flour are low in protein and it is inferior and also absorbed at a low level. To solve this problem sources of complete proteins may be introduced into the formulation of bakery products. But animal proteins can be allergens. An alternative can be concentrates, hydrolysates and isolates of proteins of vegeTable origin, particularly, obtained from rice. Microbiological, biochemical and conformational changes in dough and bread from wheat flour were influenced by adding rice protein concentrate. Gas-forming capacity of the dough with rice protein concentrate decreased by 8.3–20.8 % compared to the control sample where there was increase of the dosage. Gas formation occurred less intensively in the dough with rice protein concentrate, because fermentation was delayed due to a decrease in the availability of nutrients. The first peak on the gas formation graph in case of the dough with the addition of 4–8 % rice protein concentrate was seen after 65 minutes, in the control sample it was after 60 minutes. When adding 16 % of the additive, the first peak of gas formation was not clearly defined. The second peak of gas formation for control sample was observed after 150 min and for samples with rice protein concentrate a bit later and it was not clearly defined. Infrared spectra showed that relative reflection coefficient of samples with rice protein concentrate was lower both for dough after kneading and after fermentation. The addition of 4 and 8 % rice protein concentrate did not affect the amount of formed sugars, and the addition of 16 % reduced this indicator by 1.6 %. The amount of fermented sugars decreased by 3.0–7.8 %. So, changes during the technological process of bread-making can be followed due to the obtained results for obtaining bread with high protein content
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