通过混合培养将酸处理和γ射线处理的甘薯残渣生物转化为微生物蛋白。

Bioconversion of acid- and gamma-ray-treated sweet potato residue to microbial protein by mixed cultures.

作者信息

Aziz N H, Mohsen G I

机构信息

Microbiology Department, National Center for Radiation Research and Technology, Nasr City, Cairo, Egypt.

出版信息

J Ind Microbiol Biotechnol. 2002 Nov;29(5):264-7. doi: 10.1038/sj.jim.7000297.

DOI:10.1038/sj.jim.7000297

PMID:12407461

Abstract

Sweet potato residue, a starchy agricultural waste, was used as a substrate to produce microbial protein by Fusarium moniliforme and Saccharomyces cerevisiae in submerged fermentation. Acid- and gamma-irradiation-pretreated sweet potato residue enhanced the biomass yield and protein production when the residue was fermented with F. moniliforme and S. cerevisiae. A mixed culture of F. moniliforme and S. cerevisiae efficiently and rapidly utilized free sugars; the maximal biomass yield (13.96 g/l) and protein production (65.8%) were obtained after 3 days fermentation. Lower carbon utilization by the two microbial strains occurred in the waste-containing media as compared to control, increasing the economic value of the waste usage.

摘要

甘薯渣是一种富含淀粉的农业废弃物，在深层发酵中被用作生产微生物蛋白的底物，由串珠镰刀菌和酿酒酵母进行发酵。经酸处理和γ射线辐照预处理的甘薯渣在与串珠镰刀菌和酿酒酵母共同发酵时，提高了生物量产量和蛋白质产量。串珠镰刀菌和酿酒酵母的混合培养物能够高效快速地利用游离糖；发酵3天后获得了最大生物量产量（13.96克/升）和蛋白质产量（65.8%）。与对照相比，两种微生物菌株在含废弃物的培养基中的碳利用率较低，提高了废弃物利用的经济价值。

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通过混合培养将酸处理和γ射线处理的甘薯残渣生物转化为微生物蛋白。

Bioconversion of acid- and gamma-ray-treated sweet potato residue to microbial protein by mixed cultures.

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