Modules for in vitro metabolic engineering: Pathway assembly for bio-based production of value-added chemicals

Modules for in vitro metabolic engineering: Pathway assembly for bio-based production of value-added chemicals

Bio-based chemical production has drawn attention regarding the realization of a sustainable society. In vitro metabolic engineering is one of the methods used for the bio-based production of value-added chemicals. This method involves the reconstitution of natural or artificial metabolic pathways b...

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Bibliographic Details
Main Authors: Hironori Taniguchi, Kenji Okano, Kohsuke Honda
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2017-06-01
Series:Synthetic and Systems Biotechnology
Subjects:
In vitro metabolic engineering
Module
Glycolysis
Pentose phosphate pathway
Cofactor management
Online Access:http://www.sciencedirect.com/science/article/pii/S2405805X17300182
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spelling doaj-2a1f19b857bc4f32a199e6144843ac862021-02-02T06:05:38ZengKeAi Communications Co., Ltd.Synthetic and Systems Biotechnology2405-805X2017-06-0122657410.1016/j.synbio.2017.06.002Modules for in vitro metabolic engineering: Pathway assembly for bio-based production of value-added chemicalsHironori TaniguchiKenji OkanoKohsuke HondaBio-based chemical production has drawn attention regarding the realization of a sustainable society. In vitro metabolic engineering is one of the methods used for the bio-based production of value-added chemicals. This method involves the reconstitution of natural or artificial metabolic pathways by assembling purified/semi-purified enzymes in vitro. Enzymes from distinct sources can be combined to construct desired reaction cascades with fewer biological constraints in one vessel, enabling easier pathway design with high modularity. Multiple modules have been designed, built, tested, and improved by different groups for different purpose. In this review, we focus on these in vitro metabolic engineering modules, especially focusing on the carbon metabolism, and present an overview of input modules, output modules, and other modules related to cofactor management.http://www.sciencedirect.com/science/article/pii/S2405805X17300182In vitro metabolic engineeringModuleGlycolysisPentose phosphate pathwayCofactor management
collection DOAJ
language English
format Article
sources DOAJ
author Hironori Taniguchi
Kenji Okano
Kohsuke Honda
spellingShingle Hironori Taniguchi
Kenji Okano
Kohsuke Honda
Modules for in vitro metabolic engineering: Pathway assembly for bio-based production of value-added chemicals
Synthetic and Systems Biotechnology
In vitro metabolic engineering
Module
Glycolysis
Pentose phosphate pathway
Cofactor management
author_facet Hironori Taniguchi
Kenji Okano
Kohsuke Honda
author_sort Hironori Taniguchi
title Modules for in vitro metabolic engineering: Pathway assembly for bio-based production of value-added chemicals
title_short Modules for in vitro metabolic engineering: Pathway assembly for bio-based production of value-added chemicals
title_full Modules for in vitro metabolic engineering: Pathway assembly for bio-based production of value-added chemicals
title_fullStr Modules for in vitro metabolic engineering: Pathway assembly for bio-based production of value-added chemicals
title_full_unstemmed Modules for in vitro metabolic engineering: Pathway assembly for bio-based production of value-added chemicals
title_sort modules for in vitro metabolic engineering: pathway assembly for bio-based production of value-added chemicals
publisher KeAi Communications Co., Ltd.
series Synthetic and Systems Biotechnology
issn 2405-805X
publishDate 2017-06-01
description Bio-based chemical production has drawn attention regarding the realization of a sustainable society. In vitro metabolic engineering is one of the methods used for the bio-based production of value-added chemicals. This method involves the reconstitution of natural or artificial metabolic pathways by assembling purified/semi-purified enzymes in vitro. Enzymes from distinct sources can be combined to construct desired reaction cascades with fewer biological constraints in one vessel, enabling easier pathway design with high modularity. Multiple modules have been designed, built, tested, and improved by different groups for different purpose. In this review, we focus on these in vitro metabolic engineering modules, especially focusing on the carbon metabolism, and present an overview of input modules, output modules, and other modules related to cofactor management.
topic In vitro metabolic engineering
Module
Glycolysis
Pentose phosphate pathway
Cofactor management
url http://www.sciencedirect.com/science/article/pii/S2405805X17300182
work_keys_str_mv AT hironoritaniguchi modulesforinvitrometabolicengineeringpathwayassemblyforbiobasedproductionofvalueaddedchemicals
AT kenjiokano modulesforinvitrometabolicengineeringpathwayassemblyforbiobasedproductionofvalueaddedchemicals
AT kohsukehonda modulesforinvitrometabolicengineeringpathwayassemblyforbiobasedproductionofvalueaddedchemicals
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