Conversion of Potato Peels into Single Cell Protein

Futuristic Biotechnology Pub Date : 2021-12-31 DOI:10.54393/fbt.v1i02.26

Hira Nadeem

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引用次数: 1

Abstract

The economic expansion in developing countries can be achieved by converting their low cost industrial and agricultural wastes into more valuable resultants with the help of emerging scientific approaches. Objective: to produce single cell protein from microorganism (fungus) through the process of submerged fermentation utilizing the agro-industrial waste (potato peel) as substrate. Methods: Four broths (control, glucose broth, potato peel broth and mix broth) were prepared. The maximum dry cell biomass (0.523 g/100 ml) was obtained with mix broth which was unitized for further research. All the broths were supplemented with potassium dihydrogen phosphate, magnesium sulphate, sodium chloride, and yeast extract. Result: The growth of fungal biomass in stirred tank and bubble column fermenter was compared and optimum yield was obtained with bubble column fermenter (5.45 g/100ml). This bioconversion will not only supply protein rich food but also help in control of environmental pollution. Conclusion: It is concluded that potato peels can be an attractive substrate for the production of single cell protein as they are good source of sugar and other nutrients required for the support of microorganisms

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马铃薯皮转化为单细胞蛋白的研究

发展中国家的经济扩张可以通过在新兴科学方法的帮助下将其低成本的工业和农业废物转化为更有价值的产物来实现。目的:以农业工业废弃物(马铃薯皮)为底物，通过深层发酵工艺生产微生物(真菌)单细胞蛋白。方法:制备对照肉汤、葡萄糖肉汤、土豆皮肉汤和混合肉汤。混合肉汤可获得最大的干电池生物量(0.523 g/100 ml)。所有肉汤均添加磷酸二氢钾、硫酸镁、氯化钠和酵母提取物。结果:比较了搅拌池和气泡柱发酵罐中真菌生物量的生长情况，气泡柱发酵罐产量最佳(5.45 g/100ml)。这种生物转化不仅可以提供富含蛋白质的食物，还有助于控制环境污染。结论:马铃薯皮是生产单细胞蛋白的理想底物，因为马铃薯皮是支持微生物所需的糖和其他营养物质的良好来源

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Futuristic Biotechnology

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