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论文类型：期刊论文

发表时间：2017-03-01

发表刊物：METABOLIC ENGINEERING

收录刊物：SCIE、EI、PubMed、Scopus

卷号：40

页面范围：50-58

ISSN号：1096-7176

关键字：Butyric acid; Carbon catabolite repression; Clostridium tyrobutyricum; Metabolic engineering; Xylose

摘要：Clostridium tyrobutyricum is a promising microorganism for butyric acid production. However, its ability to utilize xylose, the second most abundant sugar found in lignocellulosic biomass, is severely impaired by glucose-mediated carbon catabolite repression (CCR). In this study, CCR in C. tyrobutyricum was eliminated by overexpressing three heterologous xylose catabolism genes (xylT, xylA and xlyB) cloned from C. acetobutylicum. Compared to the parental strain, the engineered strain Ct-pTBA produced more butyric acid (37.8 g/L vs. 19.4 g/L) from glucose and xylose simultaneously, at a higher xylose utilization rate (1.28 g/L.h vs. 0.16 g/L.h) and efficiency (94.3% vs. 13.8%), resulting in a higher butyrate productivity (0.53 g/L.h vs. 0.26 g/L.h) and yield (0.32 g/g vs. 0.28 g/g). When the initial total sugar concentration was similar to 120 g/L, both glucose and xylose utilization rates increased with increasing their respective concentration or ratio in the co-substrates but the total sugar utilization rate remained almost unchanged in the fermentation at pH 6.0. Decreasing the pH to 5.0 significantly decreased sugar utilization rates and butyrate productivity, but the effect was more pronounced for xylose than glucose. The addition of benzyl viologen (BV) as an artificial electron carrier facilitated the reassimilation of acetate and increased butyrate production to a final titer of 46.4 g/L, yield of 0.43 g/g sugar consumed, productivity of 0.87 g/L u h, and acid purity of 98.3% in free-cell batch fermentation, which were the highest ever reported for butyric acid fermentation. The engineered strain with BV addition thus can provide an economical process for butyric acid production from lignocellulosic biomass.