Bacillus subtilis spores have a number of potential applications,which include their use as probiotics and competitive exclusion agents to control zoonotic pathogens in animal production.The effect of cultivation conditions on Bacillus subtilis growth and sporulation was investigated in batch bioreactions performed at a 2-L scale.Studies of the cultivation conditions (pH,dissolved oxygen concentration,and media composition) led to an increase of the maximum concentration of vegetative cell from 2.6 x 109 to 2.2 x 1010 cells mL"1 and the spore concentration from 4.2 x 108 to 5.6 x 109 spores mL"1.A fed-batch bioprocess was developed with the addition of a nutrient feeding solution using an exponential feeding profile obtained from the mass balance equations.Using the developed feeding profile,starting at the middle of the exponential growth phase and finishing in the late exponential phase,an increase of the maximum vegetative cell concentration and spore concentration up to 3.6 x 1010 cells mL"1 and 7.4 x 109 spores mL"1,respectively,was obtained.Using the developed fed-batch bioreaction a 14-fold increase in the concentration of the vegetative cells was achieved. Moreover,the efficiency of sporulation under fed-batch bioreaction was 21%,which permitted a 19-fold increase in the final spore concentration,to a final value of 7.4 x 109 spores mL"1.This represents a 3-fold increase relative to the highest reported value for Bacillus subtilis spore production.
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机译:枯草芽孢杆菌孢子具有许多潜在应用,包括用作益生菌和竞争性排阻剂,以控制动物生产中的人畜共患病病原体。以2-L进行分批生物反应研究了培养条件对枯草芽孢杆菌生长和孢子形成的影响。培养条件(pH,溶解氧浓度和培养基组成)的研究导致营养细胞的最大浓度从2.6 x 109增加到2.2 x 1010细胞mL“ 1,孢子浓度从4.2 x 108增加到5.6 x 109孢子mL“ 1。使用从质量平衡方程获得的指数进料曲线,通过添加营养物进料溶液,开发了分批进料生物工艺。使用发达的进料曲线,从指数生长期的中间开始在指数期后期完成,最大营养细胞浓度和孢子浓度增加至3.6 x 1010分别获得了细胞mL” 1和7.4×109个孢子mL” 1。使用开发的补料分批生物反应,营养细胞的浓度增加了14倍。此外,分批补料生物反应下的孢子形成效率为21%,使最终孢子浓度增加了19倍,达到7.4 x 109孢子mL“ 1的最终值。这相对于3倍增加了枯草芽孢杆菌孢子生产的最高报道价值。
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