Optimization of culture conditions of iron-enriched biomass of Saccharomyces pastorianus by response surface methodology

Pham Huu Quynh Nhu, T. T. Uyen, P. Vuong, P. T. Thao
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Abstract

: Yeast biomass enriched with iron is used in a profound and safe treatment for anaemia. In this work, response surface methodology (RSM) was used to survey the response of culture conditions (temperature, degrees brix, time, and initial iron concentration) to the bioaccumulation of ferric ion (Fe 3+ ) in yeast ( Saccharomyces pastorianus ). On the other hand, the Box-Behnken design was used to determine the optimum conditions of 24 o C, 13 o Bx of the culture solid content for 49 h incubation and 656 ppm of initial iron concentration. The total Fe 3+ content in the biomass was significantly affected by the culture temperature and degrees brix (p<0.0001). Under optimum conditions, the maximum level of Fe (III) ions in the dry cell weight of S. pastorianus was 16.82±0.65 mg/g. The results from statistical analysis showed that the model was significant (p<0.0001) and adequate.
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响应面法优化富铁酵母生物量培养条件
富含铁的酵母生物质用于贫血的深度和安全治疗。本研究采用响应面法(RSM)研究了不同培养条件(温度、白度、时间和初始铁浓度)对酵母(Saccharomyces pastorianus)铁离子(fe3 +)生物积累的影响。另一方面,采用Box-Behnken设计确定了24℃、13 × Bx培养49 h、初始铁浓度为656ppm的最佳条件。生物量中总Fe 3+含量受培养温度和白度的显著影响(p<0.0001)。在最佳条件下,酵母干细胞质量中Fe (III)离子的最高含量为16.82±0.65 mg/g。统计分析结果表明,该模型是显著的(p<0.0001),是充分的。
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