Metabolic Engineering Strategies for Co-Utilization of Carbon Sources in Microbes

Metabolic Engineering Strategies for Co-Utilization of Carbon Sources in Microbes

Co-utilization of carbon sources in microbes is an important topic in metabolic engineering research. It is not only a way to reduce microbial production costs but also an attempt for either improving the yields of target products or decreasing the formation of byproducts. However, there are barrier...

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Main Authors: Yifei Wu, Xiaolin Shen, Qipeng Yuan, Yajun Yan
Format: Article
Language:English
Published: MDPI AG 2016-02-01
Series:Bioengineering
Subjects:
metabolic engineering strategies
co-utilization
lignocellulosic biomass
Online Access:http://www.mdpi.com/2306-5354/3/1/10
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spelling doaj-50942fa4f69447c0b679aea36e469bf92020-11-24T21:18:26ZengMDPI AGBioengineering2306-53542016-02-01311010.3390/bioengineering3010010bioengineering3010010Metabolic Engineering Strategies for Co-Utilization of Carbon Sources in MicrobesYifei Wu0Xiaolin Shen1Qipeng Yuan2Yajun Yan3State Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology, Beijing 100029, ChinaState Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology, Beijing 100029, ChinaState Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology, Beijing 100029, ChinaBioChemical Engineering Program, College of Engineering, University of Georgia, Athens, GA 30602, USACo-utilization of carbon sources in microbes is an important topic in metabolic engineering research. It is not only a way to reduce microbial production costs but also an attempt for either improving the yields of target products or decreasing the formation of byproducts. However, there are barriers in co-utilization of carbon sources in microbes, such as carbon catabolite repression. To overcome the barriers, different metabolic engineering strategies have been developed, such as inactivation of the phosphotransferase system and rewiring carbon assimilation pathways. This review summarizes the most recent developments of different strategies that support microbes to utilize two or more carbon sources simultaneously. The main content focuses on the co-utilization of glucose and pentoses, major sugars in lignocellulose.http://www.mdpi.com/2306-5354/3/1/10metabolic engineering strategiesco-utilizationlignocellulosic biomass
collection DOAJ
language English
format Article
sources DOAJ
author Yifei Wu
Xiaolin Shen
Qipeng Yuan
Yajun Yan
spellingShingle Yifei Wu
Xiaolin Shen
Qipeng Yuan
Yajun Yan
Metabolic Engineering Strategies for Co-Utilization of Carbon Sources in Microbes
Bioengineering
metabolic engineering strategies
co-utilization
lignocellulosic biomass
author_facet Yifei Wu
Xiaolin Shen
Qipeng Yuan
Yajun Yan
author_sort Yifei Wu
title Metabolic Engineering Strategies for Co-Utilization of Carbon Sources in Microbes
title_short Metabolic Engineering Strategies for Co-Utilization of Carbon Sources in Microbes
title_full Metabolic Engineering Strategies for Co-Utilization of Carbon Sources in Microbes
title_fullStr Metabolic Engineering Strategies for Co-Utilization of Carbon Sources in Microbes
title_full_unstemmed Metabolic Engineering Strategies for Co-Utilization of Carbon Sources in Microbes
title_sort metabolic engineering strategies for co-utilization of carbon sources in microbes
publisher MDPI AG
series Bioengineering
issn 2306-5354
publishDate 2016-02-01
description Co-utilization of carbon sources in microbes is an important topic in metabolic engineering research. It is not only a way to reduce microbial production costs but also an attempt for either improving the yields of target products or decreasing the formation of byproducts. However, there are barriers in co-utilization of carbon sources in microbes, such as carbon catabolite repression. To overcome the barriers, different metabolic engineering strategies have been developed, such as inactivation of the phosphotransferase system and rewiring carbon assimilation pathways. This review summarizes the most recent developments of different strategies that support microbes to utilize two or more carbon sources simultaneously. The main content focuses on the co-utilization of glucose and pentoses, major sugars in lignocellulose.
topic metabolic engineering strategies
co-utilization
lignocellulosic biomass
url http://www.mdpi.com/2306-5354/3/1/10
work_keys_str_mv AT yifeiwu metabolicengineeringstrategiesforcoutilizationofcarbonsourcesinmicrobes
AT xiaolinshen metabolicengineeringstrategiesforcoutilizationofcarbonsourcesinmicrobes
AT qipengyuan metabolicengineeringstrategiesforcoutilizationofcarbonsourcesinmicrobes
AT yajunyan metabolicengineeringstrategiesforcoutilizationofcarbonsourcesinmicrobes
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