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Developing a mesophilic co-culture for direct conversion of cellulose to butanol in consolidated bioprocess

机译：发展中温共培养以在合并的生物过程中将纤维素直接转化为丁醇

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摘要

BackgroundConsolidated bioprocessing (CBP) of butanol production from cellulosic biomass is a promising strategy for cost saving compared to other processes featuring dedicated cellulase production. CBP requires microbial strains capable of hydrolyzing biomass with enzymes produced on its own with high rate and high conversion and simultaneously produce a desired product at high yield. However, current reported butanol-producing candidates are unable to utilize cellulose as a sole carbon source and energy source. Consequently, developing a co-culture system using different microorganisms by taking advantage of their specific metabolic capacities to produce butanol directly from cellulose in consolidated bioprocess is of great interest.

机译：背景技术与其他以专用纤维素酶生产为特征的工艺相比，从纤维素生物质中生产丁醇的合并生物处理（CBP）是一种节省成本的有前途的策略。 CBP需要微生物菌株，该微生物菌株能够以自身产生的酶高速率高转化率地水解生物质，并同时以高产率产生所需产物。然而，目前报道的生产丁醇的候选物不能利用纤维素作为唯一的碳源和能源。因此，在合并的生物过程中通过利用它们的特定代谢能力直接从纤维素生产丁醇的优势，开发使用不同微生物的共培养系统。

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期刊名称 Biotechnology for Biofuels
作者
Zhenyu Wang; Guangli Cao; Ju Zheng; Defeng Fu; Jinzhu Song; Junzheng Zhang; Lei Zhao; Qian Yang;
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作者单位

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年(卷),期 2015(8),-1
年度 2015
页码 84
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
Cellulose Co-culture Biobutanol Conversion Consolidated bioprocessing;

机译：纤维素;共培养;生物丁醇;转化;合并生物处理;

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专利

1. Developing a mesophilic co-culture for direct conversion of cellulose to butanol in consolidated bioprocess [J] . Zhenyu Wang, Guangli Cao, Ju Zheng, Biotechnology for Biofuels . 2015,第3期

机译：发展中温共培养，以在合并的生物过程中将纤维素直接转化为丁醇
2. Developing a mesophilic co-culture for direct conversion of cellulose to butanol in consolidated bioprocess [J] . Zhenyu Wang, Guangli Cao, Ju Zheng, Biotechnology for Biofuels . 2015,第1期

机译：发展中温共培养，以在合并的生物过程中将纤维素直接转化为丁醇
3. Butanol production from cellulosic material by anaerobic co-culture of white-rot fungus Phlebia and bacterium Clostridium in consolidated bioprocessing [J] . Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2020,第期

机译：丁醇由白腐真菌斑虫和细菌梭菌的胆管材料中的纤维素材料生产在综合生物处理中
4. AN ADVANCED BIOREFINERY FOR BUTANOL, ACETONE AND ELECTRICITY COPRODUCTION UNDER A CONSOLIDATED BIOPROCESSING SCHEME [C] . A. Soto, D. Sánchez, C. E. Molina-Guerrero, European biomass conference and exhibition;ETA-Florence Renewable Energies . 2015

机译：合并生物处理方案下的丁香，丙酮和电联产高级生物精制厂
5. Genome-Scale Characterization of Metabolic Interactions in a Clostridial Co-culture for Consolidated Bioprocessing. [D] . Salimi, Fahimeh. 2014

机译：梭菌共培养中生物相互作用的代谢相互作用的基因组规模表征。
6. Consolidated bioprocessing of cellulose to itaconic acid by a co-culture of Trichoderma reesei and Ustilago maydis [O] . Ivan Schlembach, Hamed Hosseinpour Tehrani, Lars M. Blank, 2020

机译：通过Trichoderma Reesei和Ustilago Maydis的共培养将纤维素的生物加工纤维素生物处理
7. Developing a mesophilic co-culture for direct conversion of cellulose to butanol in consolidated bioprocess [O] . 2015

机译：发展中温共培养，以在合并的生物过程中将纤维素直接转化为丁醇

Developing a mesophilic co-culture for direct conversion of cellulose to butanol in consolidated bioprocess

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