He Ni, Wu Tingyu, Jiang Jingjing, Long Xuwei, Shao Bing, Meng Qin
School of Environmental and Biological Engineering, Nanjing University of Science and Technology, Nanjing, PR China.
School of Environmental and Biological Engineering, Nanjing University of Science and Technology, Nanjing, PR China.
Colloids Surf B Biointerfaces. 2017 Sep 1;157:317-324. doi: 10.1016/j.colsurfb.2017.06.007. Epub 2017 Jun 7.
Rhamnolipids are the most promising biosurfactants, have widespread applications in many fields. However, low yield and productivity in fermentation caused a high production cost and thus prohibited the bulk applications of rhamnolipids in industry. In this study, a sequential fed-batch fermentation process with fill-and-draw operation was developed to improve rhamnolipids production. By utilizing this strategy, the total produced rhamnolipids reached over 150g/L, had a 163% and 102% increase over the traditional batch and fed-batch processes, respectively. This remarkable high production efficiency was achieved by the well-maintained high productivity of 0.4g/Lh for a period of 17 d. Astonishingly, the conversion yield was high as 84%, while this value was only 53.2% and 42.7% in the traditional batch and fed-batch process, respectively. The high-efficiency rhamnolipids production in this sequential fed-batch fermentation could be largely explained by a high presence of cell coupled with the replenishment of nutrients and dilution of toxic byproducts via fill-and-draw operation. In all, this validated fermentation strategy offers a great prospect for high-efficiency production of rhamnolipids in industry.
鼠李糖脂是最具前景的生物表面活性剂,在许多领域有着广泛应用。然而,发酵过程中的低产量和低生产率导致生产成本高昂,从而限制了鼠李糖脂在工业中的大规模应用。在本研究中,开发了一种采用补料分批操作的顺序补料分批发酵工艺来提高鼠李糖脂产量。通过运用该策略,鼠李糖脂的总产量达到了150g/L以上,分别比传统分批发酵和补料分批发酵工艺提高了163%和102%。在17天的时间里,通过维持0.4g/Lh的高生产率实现了这一显著的高生产效率。令人惊讶的是,转化率高达84%,而在传统分批发酵和补料分批发酵工艺中,该值分别仅为53.2%和42.7%。这种顺序补料分批发酵中鼠李糖脂的高效生产在很大程度上可以通过细胞的高含量以及通过补料分批操作补充营养物质和稀释有毒副产物来解释。总之,这种经过验证的发酵策略为工业中高效生产鼠李糖脂提供了广阔前景。
