A mutation in the AdhE alcohol dehydrogenase of Clostridium thermocellum increases tolerance to several primary alcohols, including isobutanol, n-butanol and ethanol

Liang Tian; Nicholas D. Cervenka; Aidan M. Low; Daniel G. Olson; Lee R. Lynd

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A mutation in the AdhE alcohol dehydrogenase of Clostridium thermocellum increases tolerance to several primary alcohols, including isobutanol, n-butanol and ethanol

机译：热纤梭菌的AdhE醇脱氢酶中的突变增加了对几种异丁醇，正丁醇和乙醇的耐受性

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Clostridium thermocellum is a good candidate organism for producing cellulosic biofuels due to its native ability to ferment cellulose, however its maximum biofuel titer is limited by tolerance. Wild type C. thermocellum is inhibited by 5?g/L n-butanol. Using growth adaptation in a chemostat, we increased n-butanol tolerance to 15?g/L. We discovered that several tolerant strains had acquired a D494G mutation in the adhE gene. Re-introducing this mutation recapitulated the n-butanol tolerance phenotype. In addition, it increased tolerance to several other primary alcohols including isobutanol and ethanol. To confirm that adhE is the cause of inhibition by primary alcohols, we showed that deleting adhE also increases tolerance to several primary alcohols.

机译：热纤梭菌由于其固有的纤维素发酵能力，是生产纤维素生物燃料的良好候选生物，但是其最大生物燃料效价受到耐受性的限制。野生型热纤梭菌可被5？g / L正丁醇抑制。在化学稳定剂中使用生长适应性，我们将正丁醇耐受性提高到15μg/ L。我们发现几种耐受菌株已在adhE基因中获得了D494G突变。重新引入该突变概括了正丁醇耐受性表型。此外，它提高了对其他几种伯醇（包括异丁醇和乙醇）的耐受性。为了证实adhE是伯醇抑制的原因，我们表明删除adhE还可以提高对几种伯醇的耐受性。

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《Scientific reports. 》 |2019年第1期| 共7页
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Liang Tian; Nicholas D. Cervenka; Aidan M. Low; Daniel G. Olson; Lee R. Lynd;
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1. Correction for Lo et al., “The Bifunctional Alcohol and Aldehyde Dehydrogenase Gene, adhE, Is Necessary for Ethanol Production in Clostridium thermocellum and Thermoanaerobacterium saccharolyticum” | Journal of Bacteriology [J] . Jonathan Lo, Tianyong Zheng, Shuen Hon, Journal of bacteriology . 2019 ,第1期

机译：对Lo等人的更正，“双功能醇和醛脱氢酶基因adhE是在热纤梭菌和解热厌氧杆菌中生产乙醇所必需的” |细菌学杂志
2. The Bifunctional Alcohol and Aldehyde Dehydrogenase Gene, adhE, Is Necessary for Ethanol Production in Clostridium thermocellum and Thermoanaerobacterium saccharolyticum [J] . Jonathan Lo, Tianyong Zheng, Shuen Hon, Journal of bacteriology . 2015 ,第8期

机译：双功能酒精和醛脱氢酶基因adhE是在热纤梭菌和解热厌氧杆菌中生产乙醇所必需的。
3. Development of a plasmid-based expression system in Clostridium thermocellum and its use to screen heterologous expression of bifunctional alcohol dehydrogenases (adhEs) [J] . Shuen Hon, Anthony A. Lanahan, Liang Tian, Metabolic Engineering Communications . 2016 ,第1期

机译：热纤梭菌中基于质粒的表达系统的开发及其在筛选双功能醇脱氢酶（adhEs）的异源表达中的用途
4. Isobutanol Production and Alcohol Tolerance by Yeast Wild Strain [C] . NOR Azah Ramli, ROSHANIDA A. Rahman International Conference Global Sustainability and Chemical Engineering . 2015

机译：酵母野生菌株的异丁醇生产和醇耐受性
5. Alcohol Dehydrogenases and Their Role in Ethanol Production in Thermoanaerobacterium saccharolyticum and Clostridium thermocellum [D] . Zheng, Tian Yong. 2017

机译：糖热厌氧杆菌和热纤梭菌中乙醇脱氢酶及其在乙醇生产中的作用
6. A mutation in the AdhE alcohol dehydrogenase of Clostridium thermocellum increases tolerance to several primary alcohols including isobutanol n-butanol and ethanol [O] . Liang Tian, Nicholas D. Cervenka, Aidan M. Low, -1

机译：热纤梭菌的AdhE醇脱氢酶突变增加了对几种异丁醇正丁醇和乙醇的耐受性
7. The Bifunctional Alcohol and Aldehyde Dehydrogenase Gene, adhE , Is Necessary for Ethanol Production in Clostridium thermocellum and Thermoanaerobacterium saccharolyticum [O] . Jonathan Lo, Tianyong Zheng, Shuen Hon, 2015

机译：双官能醇和醛脱氢酶基因，adhe，乙醇产量在梭菌热团聚和热橘杆菌中是必需的

A mutation in the AdhE alcohol dehydrogenase of Clostridium thermocellum increases tolerance to several primary alcohols, including isobutanol, n-butanol and ethanol

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