AI Article Synopsis
- Dissolved oxygen is crucial for cell growth and product formation, easily manipulated by changing agitation speed during fermentation.
- The study found that lower agitation speed (600 rpm) promotes initial cell growth and riboflavin production, while higher speed (900 rpm) is advantageous later on.
- A multi-stage agitation control strategy was implemented, achieving a maximum riboflavin concentration of 9.4 g l(-1) in 48 hours, outperforming previous methods by over 20%.
Article Abstract
Dissolved oxygen is one of the most important bioprocess parameters that could affect cell growth and product formation, and it is easy to control by changing agitation speed. In this work, the effects of agitation speed on the performance of riboflavin production by recombinant Bacillus subtilis RF1 was investigated in fed-batch fermentation. The lower agitation speed (600 rpm) was beneficial for cell growth and riboflavin biosynthesis in the initial phase of fermentation process. While, during the later phase, higher agitation speed (900 rpm) was favor for cell growth and riboflavin biosynthesis. Thus, a two-stage agitation speed control strategy was proposed based on kinetic analysis, in which the agitation speed was controlled at 600 rpm in the first 26 h and then switched to 900 rpm to maintain high μ for cell growth and high q(p) for riboflavin production during the entire fermentation process. However, it was observed that a sharp increase of agitation speed resulted in an adverse effect on cell growth and riboflavin synthesis within a short time. To avoid this phenomenon, a multi-stage agitation speed control strategy was set up based on the two-stage control strategy, the maximum concentration of riboflavin reached 9.4 g l(-1) in 48 h with the yield of 0.051 g g(-1) by applying this strategy, which were 20.5 and 21.4% over the best results controlled by constant agitation speeds.
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| http://dx.doi.org/10.1007/s11274-013-1492-0 | DOI Listing |
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