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中国精品科技期刊2020
张帅,郭晓雪,范婧,等. 转谷氨酰胺酶对米粉、米面团和米面包的改良[J]. 华体会体育,2023,44(20):27−35. doi: 10.13386/j.issn1002-0306.2022100220.
引用本文: 张帅,郭晓雪,范婧,等. 转谷氨酰胺酶对米粉、米面团和米面包的改良[J]. 华体会体育,2023,44(20):27−35. doi: 10.13386/j.issn1002-0306.2022100220.
ZHANG Shuai, GUO Xiaoxue, FAN Jing, et al. Improvement of Rice Flour, Rice Dough and Rice Bread by Transglutaminase[J]. Science and Technology of Food Industry, 2023, 44(20): 27−35. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022100220.
Citation: ZHANG Shuai, GUO Xiaoxue, FAN Jing, et al. Improvement of Rice Flour, Rice Dough and Rice Bread by Transglutaminase[J]. Science and Technology of Food Industry, 2023, 44(20): 27−35. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022100220.

转谷氨酰胺酶对米粉、米面团和米面包的改良

Improvement of Rice Flour, Rice Dough and Rice Bread by Transglutaminase

  • 摘要: 为改善米面包品质,揭示转谷氨酰胺酶(TG酶)对米粉、米面团和米面包品质的影响及各指标之间的联系,对添加不同质量分数TG酶的米粉的粉质特性和糊化特性,米面团的水分分布、流变特性和发酵特性,以及米面包的比容、气孔和质构等指标进行了测定。结果表明,0.60% TG酶能够改善米粉的粉质特性和糊化特性,将米粉的稳定时间提高至8.00±0.77 min,峰值粘度(PV)、谷值粘度(VV)和最终粘度(FV)分别提升为5801.00±30.41、3805.67±76.14和5836.33±106.17 cP,降低米粉的衰减值(BD)和回生值(SB)等糊化参数至1990.00±128.11和1991.67±34.08 cP;同时TG酶增加米面团中水分结合的紧密程度,改善米面团的流变特性和发酵特性,将S21升至9.24%±13.07%和将T21和T22分别降至1.40±1.80和30.45±2.28 ms,Hm提高至8.60±0.11 mm;孔隙率提高至50.51%±0.90%,降低米面包的硬度、胶粘性和咀嚼性,提高米面包的弹性,改良米面包的质构。相关性分析表明,T23和形成时间呈负相关,Hm与C3、C3~C2和VV呈正相关,与BD和SB呈负相关,咀嚼性和C1呈正相关,比容与FV和PV呈正相关。实验结果说明,TG酶可以改善米粉、米面团和米面包的品质,且改良的各指标间存在不同程度的相关性。

     

    Abstract: In order to improve the quality of rice bread and reveal the effects of transglutaminase (TGase) on the quality of rice flour, rice dough and rice bread, and reveal the relationship among the indexes. The silty properties and pasting properties of TGase containing different mass fractions in rice flour, the water distribution, rheological properties and fermentation capability of rice dough, and the specific volume, gas cells and texture of bread were tested. The results showed that 0.60% TGase could improve the silty and pasting properties of rice flour, and increase the stabilization time of rice flour to 8.00±0.77 min. The peak viscosity (PV), valley viscosity (VV) and final viscosity (FV) were increased to 5801.00±30.41, 3805.67±76.14 and 5836.33±106.17 cP, respectively. Breakdown (BD) and setback (SB) of rice flour were reduced to 1990.00±128.11 and 1991.67±34.08 cP. At the same time, TGase increased the tightness of water binding, improved the rheological properties and fermentation capability of rice dough, increased S21 to 9.24%±13.07%, decreased T21 and T22 to 1.40±1.80 and 30.45±2.28 ms, and increased Hm to 8.60±0.11 mm. The porosity was increased to 50.51%±0.90%, which reduced the hardness, adhesiveness and chewiness of rice bread, improved the springiness of rice bread and improved the textural properties of rice bread. Correlation analysis showed that T23 was negatively correlated with the formation time, and Hm was positively correlated with C3, C3~C2 and VV. And BD and SB were negatively correlated, chewiness was positively correlated with C1, specific volume was positively correlated with FV and PV were positively correlated. The results showed that TGase improved the quality of rice flour, rice dough and rice bread, and there were different degrees of correlation among the improved indexes.

     

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