Sporicidal Treatments to Produce Germinated Finger Millet

Journal of Scientific Research and Reports Pub Date : 2024-05-19 DOI:10.9734/jsrr/2024/v30i62076

Jayashree H, Malashree L, Devaraju R, A. H, Pushpa B P, R. B

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Abstract

Aims: The current investigation was to ascertain the most efficient sporicidal treatment for germinated finger millet in order to inactivate the spores that could interfere with the fermentation process by acting as a competing microflora for starter culture during the manufacturing of probiotic millet food. Study Design: By applying different dry and wet sporicidal treatments to the finger millet, the study attempted to inactivate the spores and create germinated finger millet. Following each treatment, the number of aerobic spores was enumerated by the pour plate technique. Place and Duration of Study: Department of Dairy Microbiology, Dairy Science College, Hebbal, Bengaluru, Karnataka, India between June 2023 and April 2024. Methodology: Both wet and dry sporicidal treatments were used. It comprised of blanching, autoclaving, hot air oven treatment and the combined treatment of hot air oven and autoclaving. Results: Aerobic spore count were reduced from 3.86 to 1.00 log10 cfu/g after autoclaving finger millet for 30 min at 121℃. Considering that the autoclaving procedure did not encourage germination, sporicidal and fungicidal treatments were followed for 48 h germinated finger millet. After autoclaving germinated finger millet flour, the initial counts of spores and fungus which were 4.98 and 3.56 log10 cfu/g were completely eliminated. Statistically significant (P=.05) difference was found between the treatment sample and the control. Conclusion: Autoclaving the germinated finger millet flour at 121℃ for 15 min resulted in a complete reduction of spores and fungus count. Hence, this treatment was followed during the preparation of probiotic millet food.

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用杀孢子剂处理发芽的小米

研究目的：本研究旨在确定发芽小米最有效的杀菌处理方法，以灭活孢子，因为在生产益生菌小米食品的过程中，孢子可能会作为启动培养物的竞争微生物菌群干扰发酵过程：研究设计：通过对小米进行不同的干湿杀孢处理，该研究试图灭活孢子并制造发芽的小米。在每次处理后，用倒平板技术计算需氧孢子的数量：研究地点和时间：2023 年 6 月至 2024 年 4 月，印度卡纳塔克邦班加罗尔希伯尔乳品科学学院乳品微生物学系：采用湿法和干法杀孢处理。方法：采用湿法和干法杀菌处理，包括焯水、高压灭菌、热风炉处理以及热风炉和高压灭菌联合处理：结果：在 121℃下高压灭菌 30 分钟后，需氧孢子数从 3.86 log10 cfu/g 降至 1.00 log10 cfu/g。考虑到高压灭菌程序不利于发芽，对发芽 48 小时的小米进行了杀孢子和杀真菌处理。在对发芽的小米进行高压灭菌后，孢子和真菌的初始计数（4.98 和 3.56 log10 cfu/g）被完全消除。处理样本与对照样本之间的差异具有统计学意义（P=0.05）：在 121℃下高压灭菌 15 分钟可完全减少发芽小米粉中的孢子和真菌数量。因此，在制备益生菌小米食品时应采用这种处理方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Scientific Research and Reports

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