甘蔗糖蜜中高曲酸产菌分离株生物量影响因素的研究

Egyptian Sugar Journal Pub Date : 2018-12-01 DOI:10.21608/esugj.2018.228291

A. Zohri, G. Mahmoud, Nermien Sadik, Radwa A. Hanafy

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引用次数: 1

摘要

微生物生产天然产物是当今环境研究的热点，已成为化学合成的替代途径。在我们的研究中，黄曲霉号。3在生物质和曲酸生产中都表现出巨大的动力。Plackett-Burman设计利用埃及甘蔗糖蜜作为唯一的碳源，使曲酸产量为0.82(预测1.04)g/l至24.65(预测23.74)g/l，糖消耗量为27.33(预测26.96)%至89.87(预测87.46)%，形成的干生物量在3.6(预测3.8)g/l至28.2(预测28.05)g/l之间。25℃时获得最大的曲酸(24.65 g/l)和生物量值(28.2 g/l);9,5天孵育，pH为3,5;0.5%， 2%接种量，摇速150 RPM，使用发酵培养基(g/l)甘蔗糖蜜，60;酵母浸膏，7,3;Kh 2 Po 4,2;znso4.7 h2o, 0.001和mgso4.7 h2o, 1。

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A Study on the factors affecting biomass formation by a highly kojic acid producer fungal isolate from sugarcane molasses

Nowadays, microbial production of natural products represents a hot spot point in our environment and becomes an alternative way to chemical synthetic. In our research, Aspergillus flavus No . 3 shows great power in both biomass and kojic acid production. Plackett–Burman design utilize Egyptian sugarcane molasses as a sole carbon source giving kojic acid production of 0.82 (predicted 1.04) g/l to 24.65 (predicted 23.74) g/l, consuming sugar at 27.33 (predicted 26.96) % to 89.87 (predicted 87.46) % and forming dry biomass between 3.6 (predicted 3.8) g/l and 28.2 (predicted 28.05) g/l. The maximum kojic acid (24.65 g/l) and biomass value (28.2 g/l) obtained at 25°C; 9, 5 days of incubation, pH 3, 5; 0.5%, 2% inoculum size and the shaking rate at 150 rpm using fermentation medium (g/l) of sugarcane molasses, 60; yeast extract, 7, 3; KH 2 PO 4, 2; ZnSO 4 .7H 2 O, 0.001 and MgSO 4 .7H 2 O, 1, respectively.

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Egyptian Sugar Journal

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