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中国精品科技期刊2020
徐亚元,沈素晴,李大婧,等. 青香蕉微波干燥中淀粉糊化行为及消化特性的研究[J]. 华体会体育,2022,43(3):88−96. doi: 10.13386/j.issn1002-0306.2021050060.
引用本文: 徐亚元,沈素晴,李大婧,等. 青香蕉微波干燥中淀粉糊化行为及消化特性的研究[J]. 华体会体育,2022,43(3):88−96. doi: 10.13386/j.issn1002-0306.2021050060.
XU Yayuan, SHEN Suqing, LI Dajing, et al. Study on Starch Gelatinization Behaviors and Digestibility of Green Bananas during Microwave Drying[J]. Science and Technology of Food Industry, 2022, 43(3): 88−96. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2021050060.
Citation: XU Yayuan, SHEN Suqing, LI Dajing, et al. Study on Starch Gelatinization Behaviors and Digestibility of Green Bananas during Microwave Drying[J]. Science and Technology of Food Industry, 2022, 43(3): 88−96. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2021050060.

青香蕉微波干燥中淀粉糊化行为及消化特性的研究

Study on Starch Gelatinization Behaviors and Digestibility of Green Bananas during Microwave Drying

  • 摘要: 明确微波干燥(Microwave drying, MD)过程中青香蕉水分迁移与其淀粉糊化行为的关系及其对淀粉消化特性的作用,以青香蕉片为研究对象,设计不同微波功率密度,研究青香蕉MD干燥特性、淀粉糊化行为及消化特性的变化。结果表明微波功率密度和MD时间对青香蕉中淀粉糊化行为和消化特性影响显著。当青香蕉含水率高于45%,在MD过程中,高微波功率密度和高含水率可促进青香蕉中的淀粉糊化;当含水率降低到45%以下,含水率和微波功率密度对香蕉中淀粉糊化程度无显著影响(P>0.05)。当微波功率密度为2~8 W/g时,青香蕉中的抗性淀粉(Resistant starch, RS)含量与淀粉糊化程度、快消化淀粉(Rapidly digestible starch,RDS)含量呈极显著负相关(P<0.01);而当微波功率密度为2 W/g和4 W/g时,慢消化淀粉(Slowly digestible starch,SDS)含量与淀粉糊化程度呈极显著正相关(P<0.01),青香蕉中的淀粉糊化可显著促进SDS的形成,SDS含量最高可达53.90%。因此,微波干燥青香蕉可以通过调节MD微波输出功率和时间,调控青香蕉中淀粉的糊化程度,抑制RS向RDS转化,促进SDS的形成,降低RDS的含量。研究结果为MD高效保留青香蕉中抗性淀粉或提高慢消化淀粉提供理论基础及科学依据。

     

    Abstract: This study was aim to investigate the relationship between water migration and starch gelatinization behaviors of green bananas during microwave drying (MD) and its effect on starch digestibility. Taking green banana slices as the research object, different microwave power densities were designed to study the changes of microwave drying characteristics, starch gelatinization behavior and digestion characteristics for green bananas. The results showed that microwave power densities and drying time of MD showed a significant effect on the starch gelatinization behavior and digestion characteristics in green bananas. When the moisture content of banana was higher than 45%, a high microwave power density and high moisture content could promote the starch gelatinization in green bananas. While the moisture content was reduced to below 45%, the moisture content and microwave power density had no significant effect (P>0.05) on the degree of starch gelatinization. When the microwave power density was at the range of 2~8 W/g, there was a significant negative correlation (P<0.01) between RS content and the degree of starch gelatinization. And when the microwave power density was 2 W/g or 4 W/g, SDS content was significantly positively correlated with the degree of starch gelatinization (P<0.01), which indicated that a higher degree of starch gelatinization in green bananas could significantly promote the formation of SDS, and the highest SDS content could reach 53.90%. Therefore, the transformation from RS to RDS could be restrained through adjusting the microwave power densities and drying time to regulate the degree of starch gelatinization in green bananas, which could promote the formation of SDS, and reduce the content of RDS. This research could provide theoretical and scientific basis for microwave drying to efficiently retain resistant starch in green bananas or improve slow digestion starch.

     

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