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Literature DB >> 17367886

Systems biology for industrial strains and fermentation processes--example: amino acids.

R Takors¹, B Bathe, M Rieping, S Hans, R Kelle, K Huthmacher.

Abstract

Systems biology is attracting significant interest finding applications not only in pharmaceutical development but also for basic studies on microbial systems. The latter often concentrate on the quantitative understanding of global regulation phenomena. So far, these activities are dominated by academic groups basically mirroring the necessity to prepare the sound scientific understanding first, before industrial applications can be derived later. However, this short-term view may not be sufficient because systems biology already offers numerous benefits for industrial applications, provided that special constraints are considered. This contribution indicates some of the constraints worth noticing when industrial systems biology projects are carried out. Consequently, differences in project structure and goals between purely academic and industrial systems biology projects are outlined.

Mesh：

Substances：
Amino Acids

Year: 2007 PMID： 17367886 DOI： 10.1016/j.jbiotec.2007.01.031

Source DB: PubMed Journal: J Biotechnol ISSN： 0168-1656 Impact factor: 3.307

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Cited

24 in total

1. L-valine production during growth of pyruvate dehydrogenase complex-deficient Corynebacterium glutamicum in the presence of ethanol or by inactivation of the transcriptional regulator SugR.

Authors: Bastian Blombach; Annette Arndt; Marc Auchter; Bernhard J Eikmanns
Journal: Appl Environ Microbiol Date: 2008-12-16 Impact factor: 4.792

2. Crystallization and preliminary crystallographic analysis of the global nitrogen regulator AmtR from Corynebacterium glutamicum.

Authors: Kristin Hasselt; Madhumati Sevvana; Andreas Burkovski; Yves A Muller
Journal: Acta Crystallogr Sect F Struct Biol Cryst Commun Date: 2009-10-30

3. Genome shuffling and high-throughput screening of Brevibacterium flavum MDV1 for enhanced L-valine production.

Authors: Qin-Geng Huang; Bang-Ding Zeng; Ling Liang; Song-Gang Wu; Jian-Zhong Huang
Journal: World J Microbiol Biotechnol Date: 2018-07-23 Impact factor: 3.312

4. Genome shuffling improves thermotolerance and glutamic acid production of Corynebacteria glutamicum.

Authors: Pu Zheng; Miao Liu; Xiao-de Liu; Qiao-Yan Du; Ye Ni; Zhi-Hao Sun
Journal: World J Microbiol Biotechnol Date: 2011-09-27 Impact factor: 3.312

5. Corynebacterium glutamicum tailored for efficient isobutanol production.

Authors: Bastian Blombach; Tanja Riester; Stefan Wieschalka; Christian Ziert; Jung-Won Youn; Volker F Wendisch; Bernhard J Eikmanns
Journal: Appl Environ Microbiol Date: 2011-03-25 Impact factor: 4.792

6. Platform engineering of Corynebacterium glutamicum with reduced pyruvate dehydrogenase complex activity for improved production of L-lysine, L-valine, and 2-ketoisovalerate.

Authors: Jens Buchholz; Andreas Schwentner; Britta Brunnenkan; Christina Gabris; Simon Grimm; Robert Gerstmeir; Ralf Takors; Bernhard J Eikmanns; Bastian Blombach
Journal: Appl Environ Microbiol Date: 2013-07-08 Impact factor: 4.792

7. Enhanced production of L-phenylalanine in Corynebacterium glutamicum due to the introduction of Escherichia coli wild-type gene aroH.

Authors: Chuanzhi Zhang; Junli Zhang; Zhen Kang; Guocheng Du; Xiaobin Yu; Tianwen Wang; Jian Chen
Journal: J Ind Microbiol Biotechnol Date: 2013-03-23 Impact factor: 3.346