面糊中谷物粉与“纳塔泥”相互作用的表征。

IF 1.2 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Ken Tokuyasu, Junko Matsuki, Kenji Yamagishi, Masakazu Ike
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引用次数: 0

摘要

本研究旨在表征谷物面粉(大米、小麦和大麦)与“纳塔果泥”(NP)之间的相互作用,纳塔果泥是一种在水溶性多糖存在下分解的细菌纤维素(BC),具有粉末分散活性。采用快速粘度分析仪(Rapid Visco Analyzer)对添加添加剂的谷物面粉的糊化性能进行了分析,并以水中分解BC (BCW)、(1,3)(1,4)-β-葡聚糖、罗罗籽胶、桦木木聚糖三种水溶性多糖及其相应的NPs作为添加剂。对于米粉,额外的BCW或NPs增加了初始粘度和峰值粘度。水溶性多糖的加入产生了相反的趋势:粘度从峰值时间到测量结束都在增加。对于小麦粉,BCW或NP的加入延迟了峰值时间,提高了峰值粘度;这种增加一直保持到测量结束。对于大麦粉,添加BCW或NP会导致淀粉降解阶段的糊化率提高,粘度增加。接下来,在将米粉悬浮液放入容器之前,在NP中成功完成了米粉悬浮液的静态糊化;凝胶中NP浓度显著影响凝胶的硬度。因此,各种谷物面粉与NPs中细胞壁多糖之间的动态和独特的相互作用可以增加面粉的潜力;用NP对谷物面粉进行静态糊化,可以扩大面粉在当前和下一代烹饪中的应用范围。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Characterization of the Interactions between Cereal Flour and "Nata Puree" in Batter.

Characterization of the Interactions between Cereal Flour and "Nata Puree" in Batter.

Characterization of the Interactions between Cereal Flour and "Nata Puree" in Batter.

Characterization of the Interactions between Cereal Flour and "Nata Puree" in Batter.
This study aimed to characterize the interactions between cereal flour (rice, wheat, and barley) and “nata puree” (NP), a disintegrated bacterial cellulose (BC) in the presence of a water-soluble polysaccharide, with powder-dispersion activity. Pasting properties of cereal flour with additives were analyzed using a Rapid Visco Analyzer, and disintegrated BC in water (BCW), three water-soluble polysaccharides: (1,3)(1,4)-β-glucan, tamarind seed gum, and birchwood xylan, and the corresponding NPs were used as additives. For rice flour, additional BCW or NPs increased the initial and the peak viscosity. The addition of water-soluble polysaccharides produced the opposite trend: viscosity increased from the peak time to the end of measurements. For wheat flour, the addition of BCW or NP delayed the peak time and increased peak viscosity; the increase was maintained till the end of measurements. For barley flour, the additional BCW or NP caused a higher gelatinization rate and increased viscosity at the starch-retrogradation stage. Next, static gelatinization of a rice flour suspension in NP was successfully accomplished before placing it in a vessel; NP concentration in the gel significantly affected the firmness. Thus, the dynamic and unique interactions between various cereal flours and cell-wall polysaccharides in NPs can increase the flours' potential; static gelatinization of cereal flour with NP could expand flours' application range in both current and next-generation cooking.
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来源期刊
Journal of applied glycoscience
Journal of applied glycoscience BIOCHEMISTRY & MOLECULAR BIOLOGY-
自引率
9.10%
发文量
13
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