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Ethanol and anaerobic conditions reversibly inhibit commercial cellulase activity in thermophilic simultaneous saccharification and fermentation (tSSF)

机译：乙醇和厌氧条件可逆地抑制嗜热性同时糖化和发酵（tSSF）中的商业纤维素酶活性

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BackgroundA previously developed mathematical model of low solids thermophilic simultaneous saccharification and fermentation (tSSF) with Avicel was unable to predict performance at high solids using a commercial cellulase preparation (Spezyme CP) and the high ethanol yield Thermoanaerobacterium saccharolyticum strain ALK2. The observed hydrolysis proceeded more slowly than predicted at solids concentrations greater than 50 g/L Avicel. Factors responsible for this inaccuracy were investigated in this study.

机译：背景技术先前开发的使用Avicel的低固体嗜热性同时糖化和发酵（tSSF）的数学模型无法预测使用商业纤维素酶制剂（Spezyme CP）和高乙醇收率的嗜热嗜热厌氧杆菌菌株ALK2在高固体下的性能。在固体浓度大于50 µg / L Avicel时，观察到的水解过程比预期的要慢。在这项研究中调查了造成这种误差的因素。

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期刊名称 Biotechnology for Biofuels
作者
William R Kenealy; Christopher D Herring; David A Hogsett; Lee R Lynd;
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作者单位

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年(卷),期 2012(5),-1
年度 2012
页码 43
总页数 9
原文格式 PDF
正文语种
中图分类应用微生物学;
关键词
Cellulase inactivation Anaerobic Reduced environment tSSF High solids GH61;

机译：纤维素酶失活;厌氧;减少的环境;tSSF;高固含量;GH61;

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1. Ethanol and anaerobic conditions reversibly inhibit commercial cellulase activity in thermophilic simultaneous saccharification and fermentation (tSSF) [J] . Kara K Podkaminer, William R Kenealy, Christopher D Herring, Biotechnology for Biofuels . 2012,第3期

机译：乙醇和厌氧条件可逆地抑制嗜热性同时糖化和发酵（tSSF）中的商业纤维素酶活性
2. Thermophilic Bacillus coagulans Requires Less Cellulases for Simultaneous Saccharification and Fermentation of Cellulose to Products than Mesophilic Microbial Biocatalysts [J] . Mark S. Ou, Nazimuddin Mohammed, L. O. Ingram, Applied Biochemistry and Biotechnology . 2009,第1a3期

机译：与嗜温微生物生物催化剂相比，嗜热芽孢杆菌凝结芽孢杆菌需要的纤维素酶同时进行糖化和发酵才能生成产品。
3. Thermophilic Bacillus coagulans Requires Less Cellulases for Simultaneous Saccharification and Fermentation of Cellulose to Products than Mesophilic Microbial Biocatalysts [J] . Mark S. Ou, Nazimuddin Mohammed, L. O. Ingram, Applied biochemistry and biotechnology, Part A. enzyme engineering and biotechnology . 2009,第1a3期

机译：与嗜温微生物生物催化剂相比，嗜热芽孢杆菌凝结芽孢杆菌需要的纤维素酶同时进行纤维素糖化和发酵才能生成产品。
4. Conversion of Paper Waste to Bioethanol Using Selected Enzyme Combination (Cellulase and Cellobiase) through Simultaneous Saccharification and Fermentation [C] . Muhammad Arif Darmawan, Yulis Aswar Hermawan, M. Samsuri, Regional Conference on Chemical Engineering . 2019

机译：通过同时糖化和发酵将纸废料转化为生物乙醇用所选酶组合（纤维素酶和Cellobia）
5. Effect of switchgrass maturity on ethanol production via simultaneous saccharification and fermentation. [D] . Matousek, Michael Ernest. 2014

机译：柳枝mat成熟度通过同时糖化和发酵对乙醇生产的影响。
6. Conversion of cellulose and hemicellulose of biomass simultaneously to acetoin by thermophilic simultaneous saccharification and fermentation [O] . Xiaojing Jia, Xiaowei Peng, Ying Liu, 2017

机译：通过高温同时糖化和发酵将生物质中的纤维素和半纤维素同时转化为乙酰丙酮
7. Ethanol and anaerobic conditions reversibly inhibit commercial cellulase activity in thermophilic simultaneous saccharification and fermentation (tSSF) [O] . Kara K Podkaminer, William R Kenealy, Christopher D Herring, 2012

机译：乙醇和厌氧条件可逆地抑制高温同时糖化和发酵（tSSF）中的商业纤维素酶活性

Ethanol and anaerobic conditions reversibly inhibit commercial cellulase activity in thermophilic simultaneous saccharification and fermentation (tSSF)

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