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Assessing the potential of Schizochytrium sp. HX-308 for microbial lipids production from corn stover hydrolysate.

Ling-Ru WangZi-Xu ZhangYu-Zhou WangZi-Jia LiPeng-Wei HuangXiao-Man Sun
Published in: Biotechnology journal (2022)
Schizochytrium sp. has received increasing attention as promising commercial resource for the sustainable production of lipids, due to their fast growth rate and high lipid content. However, the price of glucose represents a significant proportion of the total substrate cost. Therefore, in this study, the lignocellulosic hydrolysate of corn stover hydrolysate (CSH) was used as low-cost culture medium to replace glucose in Schizochytrium sp. fermentation. When Schizochytrium sp. HX-308 was fermented with 20% glucose from CSH and 80% of glucose from pure glucose, the lipid production reached 21.2 g L -1 , which is lower than that of using 100% of pure glucose. However, the shifts of fatty acid composition indicated that CSH has great potential to enhance the percentage of polyunsaturated fatty acids (PUFAs) in total lipids. However, as the second largest carbon source in CSH, xylose was not utilized by the Schizochytrium sp. HX-308, and further analysis showed that probably because it does not possess a functional xylulose kinase. In addition, the degradation products in lignocellulosic hydrolysate have a strong inhibitory effect on cell growth, so it is necessary to investigate the tolerance of Schizochytrium sp. HX-308 to degradation products. Here, the effects of five typical degradation products on the growth and lipid synthesis were further investigated. Schizochytrium sp. HX-308 showed good tolerance to furan derivatives and organic acids, but low tolerance to phenolic compounds. Furthermore, in order to improve the lipid accumulation using CSH, the two-stage fermentation strategy was developed, resulting in a 54.8% increase compared to that of the one-stage strategy. In summary, this study provides a reference for further fermentation engineering with cheap lignocellulosic biomass as substrate.
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