Summary of Study ST001938

This data is available at the NIH Common Fund's National Metabolomics Data Repository (NMDR) website, the Metabolomics Workbench, https://www.metabolomicsworkbench.org, where it has been assigned Project ID PR001227. The data can be accessed directly via it's Project DOI: 10.21228/M83Q5Z This work is supported by NIH grant, U2C- DK119886.

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Study IDST001938
Study TitleMetabolomics characterized concentration-dependent metabolic influence of magnesium on biofilm formation in Escherichia coli (Part1)
Study SummaryBiofilms are broadly formed by a diversity of microorganisms that enable them to adapt stressful environments. Biofilms often impose harmful influences in many niches, as they can cause food contamination, antibiotics resistance, and environmental issues. However, eradicating biofilms remains difficult since the formation mechanism of biofilms are still incompletely clarified. In this study, we aimed at exploring the regulatory role of magnesium (Mg2+) on biofilm formation in Escherichia coli (E. coli) using phenotype visualization combined with targeted metabolomics method. We found that Mg2+ could exert significant influence on biofilm formation in a concentration-dependent manner by regulating phenotypic morphology and triggering metabolic modifications of biofilm. Phenotypic imaging revealed that increasing concentration of Mg2+ gradually inhibited biofilm formation, Mg2+ was observed to restore the microstructure of E. coli strain in biofilms to that in the relevant planktonic cells. In addition, our metabolomics analysis characterized 20 differential metabolites and associated 2 metabolic pathways including nucleotide metabolism and amino acid metabolism that were notably modified during biofilm formation under the treatments of different concentrations of Mg2+. Altogether, our work provides a novel insight into the influence of Mg2+ on biofilm formation at a metabolic level, which are implicated in the novel solution to disturb biofilm formation through the regulation of Mg2+ and functional metabolite interaction, then biofilms associated harmful impacts in different niches could be well tangled accordingly.
Institute
Shanghai Center for Systems Biomedicine, Shanghai Jiaotong University
DepartmentShanghai Center for Systems Biomedicine
LaboratoryLu Group
Last NameLu
First NameHaitao
Address800 Dongchuan RD. Minhang District, Shanghai, Shanghai, 200240, China
Emailhaitao_lu@sjtu.edu.cn
Phone15221478139
Submit Date2021-09-07
Raw Data AvailableYes
Raw Data File Type(s)d
Analysis Type DetailLC-MS
Release Date2021-11-04
Release Version1
Haitao Lu Haitao Lu
https://dx.doi.org/10.21228/M83Q5Z
ftp://www.metabolomicsworkbench.org/Studies/ application/zip

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Combined analysis:

Analysis ID AN003151 AN003152
Analysis type MS MS
Chromatography type Reversed phase Reversed phase
Chromatography system Agilent 1290 Infinity Agilent 1290 Infinity
Column Waters Acquity BEH HSS T3 (100 x 2.1mm, 1.8um) Waters Acquity BEH HSS T3 (100 x 2.1mm, 1.8um)
MS Type ESI ESI
MS instrument type Triple quadrupole Triple quadrupole
MS instrument name Agilent 6495 QQQ Agilent 6495 QQQ
Ion Mode NEGATIVE POSITIVE
Units - -

MS:

MS ID:MS002931
Analysis ID:AN003151
Instrument Name:Agilent 6495 QQQ
Instrument Type:Triple quadrupole
MS Type:ESI
MS Comments:Agilent MassHunter Workstation Data Acquisition Agilent MassHunter QualitativeAnalysis B.07.00 Agilent MassHunter Quantitative Analysis (for QQQ)
Ion Mode:NEGATIVE
  
MS ID:MS002932
Analysis ID:AN003152
Instrument Name:Agilent 6495 QQQ
Instrument Type:Triple quadrupole
MS Type:ESI
MS Comments:Agilent MassHunter Workstation Data Acquisition Agilent MassHunter QualitativeAnalysis B.07.00 Agilent MassHunter Quantitative Analysis (for QQQ)
Ion Mode:POSITIVE
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