Determination of by-product formation and glucose uptake of mutants with linear respiratory chain at different aerobiosis levels

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Mutants with a linear respiratory chain consisting of NADH Dehydrogenase II and one of the terminal oxidases cytochrom bo, cytochrome bd I or cytochrome bd II were growth in chemostats with defined oxygen supply. The amounts of biomass formed and of acetate and formate produced were determined.

SEEK ID: https://fairdomhub.org/assays/238

Class: Experimental assay

Projects: SUMO

Investigation: Analysis of Escherichia coli with linear electron transport chain

Study: Analysis of Escherichia coli strains with linear respiratory chain

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Assay type: Experimental Assay Type

Technology type: Chemostat Measurement

Organisms: No organisms

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Katja Bettenbrock

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Created: 15th May 2014 at 09:56

Last updated: 8th Nov 2017 at 14:21

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Programmes (1)
Projects (1)
Investigations (1)
Studies (1)
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SOPs (2)
Publications (1)

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Katja Bettenbrock

Projects: SUMO, EraCoBiotech 2 nd call proposal preparation

Institutions: Max Planck Institute for Dynamics of Complex Technical Systems

Expertise: Microbiology, Genetics, Molecular Biology, Regulatory Networks

Tools: Mutant and Strain Construction; RNA / DNA Techniques; RT-RealTime-PCR; 2D-Gels; Metabolite Analysis; Bioreactor Experiments; Flow Cyometry; ...

I am interested in the coupling of global regulation and metabolism in E. coli. To analyze this I construct and analyze defined mutant strains. These strains are characterized in bioreactor experiments of different types (batch, conti, pulse ...) and measurements on the level of metabolites, mRNA, and protein are applied. For all projects there are cooperation partners that use the data in modeling approaches either from the MPI Magdeburg or from the SUMO consortium.

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SysMO

SysMO is a European transnational funding and research initiative on "Systems Biology of Microorganisms".

The goal pursued by SysMO was to record and describe the dynamic molecular processes going on in unicellular microorganisms in a comprehensive way and to present these processes in the form of computerized mathematical models.

Systems biology will raise biomedical and biotechnological research to a new quality level and contribute markedly to progress in understanding. Pooling European research ...

Projects: BaCell-SysMO, COSMIC, SUMO, KOSMOBAC, SysMO-LAB, PSYSMO, SCaRAB, MOSES, TRANSLUCENT, STREAM, SulfoSys, SysMO DB, SysMO Funders, SilicoTryp, Noisy-Strep

Web page: http://sysmo.net/

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SUMO

"Systems Understanding of Microbial Oxygen responses" (SUMO) investigates how Escherichia coli senses oxygen, or the associated changes in oxidation/reduction balance, via the Fnr and ArcA proteins, how these systems interact with other regulatory systems, and how the redox response of an E. coli population is generated from the responses of single cells. There are five sub-projects to determine system properties and behaviour and three sub-projects to employ different and complementary modelling ...

Programme: SysMO

Public web page: http://www.sysmo.net/index.php?index=55

Organisms: Escherichia coli, Escherichia coli K-12

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Analysis of Escherichia coli with linear electron transport chain

SUMO

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Katja Bettenbrock

The electron transport chain of E. coli is branched. Different NAD Dehydrogenases and terminal oxidases are known to be expressed at different oxygen availabilities. By deleting multiple genes mutant strains were constructed that posses a linear electron transport chain. These mutants were investigated in continous bioreactor experiments with limiting glucose and varying oxygen supply.

Submitter: Katja Bettenbrock

Studies: Analysis of Escherichia coli strains with linear respiratory chain

Assays: Determination of by-product formation and glucose uptake of mutants with..., Deternination of ArcA phosphroylation level in mutants with linear ETC a..., Gene expression analysis of mutants with linear electron transport chain...

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Created: 14th May 2014 at 07:53

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Analysis of Escherichia coli strains with linear respiratory chain

SUMO

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Katja Bettenbrock

A set of isogenic mutant strains was constructed which lack NADH Dehydrogenase I as well as two terminal oxidases, resulting in strains with linear respiratory chain. The different strains hence differ in the terminal oxidase and express either cytochrome bo, cytochrome bdI or cytochrome bdII. The different strains were cultivated in glucose-limited chemostats with defined low levels of oxygen supply. Biomass and by-product formation, gene expression and the phosphorylation state of the important ...

Submitter: Katja Bettenbrock

Investigation: Analysis of Escherichia coli with linear electr...

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Created: 15th May 2014 at 09:49

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ETCmutants_metabolites

SUMO

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Katja Bettenbrock

by-product formation rates and glucose uptake rates of mutants with linear electron transport chain at different aerobiosis levels

Creator: Katja Bettenbrock

Submitter: Katja Bettenbrock

Relationship type: Not specified

Investigations: Analysis of Escherichia coli with linear electr...

Studies: Analysis of Escherichia coli strains with linea...

Assays: Determination of by-product formation and gluco...

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Created: 19th May 2014 at 08:03, Last updated: 22nd Jul 2014 at 08:48

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Measurement of extracellular metabolites

SUMO

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Sonja Steinsiek

No description specified

Creator: Sonja Steinsiek

Submitter: The JERM Harvester

Investigations: Analysis of Escherichia coli with linear electr..., Analysis of the glucose transport in Escherichi..., Steady state studies for different oxygen avail...

Studies: Analysis of Escherichia coli strains with linea..., Characterization of mutant strains with defects..., Determination of the impact of specific enzyme ...

Assays: Aerobic and anaerobic characterization of MG165..., Analysis of by-product formation rates in MG1655, Characterization of E. coli MG1655 and ∆sdhC an..., Determination of by-product formation and gluco...

Created: 16th Mar 2010 at 17:13

SUMO chemostat conditions

SUMO

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Sonja Steinsiek

This document describes the chemostat conditions to run comparable experiments in different bioreactors in different labs.

Creator: Sonja Steinsiek

Submitter: Sonja Steinsiek

Investigations: Analysis of Escherichia coli with linear electr..., Analysis of the glucose transport in Escherichi..., Dynamical studies for different oxygen availabi..., Steady state studies for different oxygen avail...

Studies: Analysis of Escherichia coli strains with linea..., Characterization of mutant strains with defects..., Determination of the impact of specific enzyme ..., The Escherichia coli dynamical response to oxyg..., The Escherichia coli steady state response to o...

Assays: Analysis of by-product formation rates in MG1655, Analysis of gene expression rates at different ..., ArcA phosphorylation at different aerobiosis le..., Characterization of MG1655 and mutant strains u..., Determination of by-product formation and gluco..., Determination of intracellular metabolite conce..., Determination of intracellular redox state by m..., Gene expression analysis of mutants with linear..., Physiological measurements from Sheffield chemo..., Transcriptional profiling of E. coli during ana...

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Created: 26th Oct 2009 at 14:48

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Analysis of Escherichia coli mutants with a linear respiratory chain

SUMO

Abstract (Expand)

The respiratory chain of E. coli is branched to allow the cells' flexibility to deal with changing environmental conditions. It consists of the NADH:ubiquinone oxidoreductases NADH dehydrogenase I … and II, as well as of three terminal oxidases. They differ with respect to energetic efficiency (proton translocation) and their affinity to the different quinone/quinol species and oxygen. In order to analyze the advantages of the branched electron transport chain over a linear one and to assess how usage of the different terminal oxidases determines growth behavior at varying oxygen concentrations, a set of isogenic mutant strains was created, which lack NADH dehydrogenase I as well as two of the terminal oxidases, resulting in strains with a linear respiratory chain. These strains were analyzed in glucose-limited chemostat experiments with defined oxygen supply, adjusting aerobic, anaerobic and different microaerobic conditions. In contrast to the wild-type strain MG1655, the mutant strains produced acetate even under aerobic conditions. Strain TBE032, lacking NADH dehydrogenase I and expressing cytochrome bd-II as sole terminal oxidase, showed the highest acetate formation rate under aerobic conditions. This supports the idea that cytochrome bd-II terminal oxidase is not able to catalyze the efficient oxidation of the quinol pool at higher oxygen conditions, but is functioning mainly under limiting oxygen conditions. Phosphorylation of ArcA, the regulator of the two-component system ArcBA, besides Fnr the main transcription factor for the response towards different oxygen concentrations, was studied. Its phosphorylation pattern was changed in the mutant strains. Dephosphorylation and therefore inactivation of ArcA started at lower aerobiosis levels than in the wild-type strain. Notably, not only the micro- and aerobic metabolism was affected by the mutations, but also the anaerobic metabolism, where the respiratory chain should not be important.

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Date Published: 27th Jan 2014

Publication Type: Not specified

PubMed ID: 24475268

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Created: 14th May 2014 at 07:57, Last updated: 8th Dec 2022 at 17:26