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教授   博士生导师   硕士生导师

主要任职: 生物工程学院副院长

性别: 男

毕业院校: 大连理工大学

学位: 博士

所在单位: 生物工程学院

学科: 生物化工. 膜科学与技术. 微生物学

联系方式: xue.1@dlut.edu.cn

电子邮箱: xue.1@dlut.edu.cn

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Impact of zinc supplementation on the improved fructose/xylose utilization and butanol production during acetone-butanol-ethanol fermentation

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论文类型: 期刊论文

发表时间: 2016-01-01

发表刊物: JOURNAL OF BIOSCIENCE AND BIOENGINEERING

收录刊物: SCIE、EI、PubMed、Scopus

卷号: 121

期号: 1

页面范围: 66-72

ISSN号: 1389-1723

关键字: Acetone-butanol-ethanol fermentation; Clostridium acetobutylicum; Zinc supplementation; Fructose; Xylose

摘要: Lignocellulosic biomass and dedicated energy crops such as Jerusalem artichoke are promising alternatives for bio-butanol production by solventogenic clostridia. However, fermentable sugars such as fructose or xylose released from the hydrolysis of these feedstocks were subjected to the incomplete utilization by the strains, leading to relatively low butanol production and productivity. When 0.001 g/L ZnSO4 center dot 7H(2)0 was supplemented into the medium containing fructose as sole carbon source, 12.8 g/L of butanol was achieved with butanol productivity of 0.089 g/L/h compared to only 4.5 g/L of butanol produced with butanol productivity of 0.028 g/L/h in the control without zinc supplementation. Micronutrient zinc also led to the improved butanol production up to 83 g/L derived from 45.2 g/L xylose as sole carbon source with increasing butanol productivity by 31.7%. Moreover, the decreased acids production was observed under the zinc supplementation condition, resulting in the increased butanol yields of 0.202 g/g-fructose and 0.184 g/g-xylose, respectively. Similar improvements were also observed with increasing butanol production by 130.2 % and 8.5 %, butanol productivity by 203.4% and 18.4%, respectively, in acetone-butanol-ethanol fermentations from sugar mixtures of fructose/glucose (4:1) and xylose/glucose (1:2) simulating the hydrolysates of Jerusalem artichoke tubers and corn stover. The results obtained from transcriptional analysis revealed that zinc may have regulatory mechanisms for the sugar transport and metabolism of Clostridium acetobutylicum L7. Therefore, micronutrient zinc supplementation could be an effective way for economic development of butanol production derived from these low-cost agricultural feedstocks. (C) 2015, The Society for Biotechnology, Japan. All rights reserved.

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