Hafida Zahir scite author profile

Escherichia coli surface characteristics including hydrophobicity, electrophoretic mobility and surface functional groups’ composition were investigated. These characteristics were determined respectively by water contact angle measurements, microelectrophoresis and x-ray photoelectron spectroscopy (XPS). The relation between the physicochemical properties and functional groups’ composition was also examined. The electrophoretic mobility at pH 7 appeared to be governed on the cell surface by the (O=C) functional groups. The cell surface’s hydrophilicity was associated with high levels of (C-(O.N)) and (OH- (C-O-C)) functional groups, whereas the cell surface’s hydrophobicity was associated with (C-(C,H)) functional groups.

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The Relation Between the Surface Chemical Composition of Escherichia coli and their Electron Donor/Electron Acceptor (Acid-base) Properties

Hamadi¹,

Latrache²,

Zahir³

et al. 2012

Research J. of Microbiology

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Effect of temperature and plumbing materials on biofilm formation byLegionella pneumophilaserogroup 1 and 2-15

Assaidi

Ellouali

Latrache

et al. 2018

Journal of Adhesion Science and Technology

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Effects of subinhibitory concentrations of nitroxoline on the surface properties ofEscherichia coli

et al. 2000

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Nitroxoline (5-nitro-8-quinolinol; NIQ) at subinhibitory concentrations (sub-MIC) decreased the adherence of uropathogenic Escherichia coli to catheter surface and significantly enhanced cell surface hydrophobicity. The surface hydrophobicity increased in the presence of sub-MIC of NIQ and also in an excess of Mg2+. The effect of NIQ on the cell surface was not related to the bacteriostatic effect of this agent. The increase in nitrogen and decrease in phosphate content in the cell surface was found in the presence of NIQ. NIQ did not inhibit the expression of fimbriae.

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Adhesion of Legionella pneumophila on glass and plumbing materials commonly used in domestic water systems

Assaidi

Ellouali

Latrache

et al. 2018

International Journal of Environmental Health Research

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We aimed to investigate the adhesion of Legionella pneumophila serogroup1 and L. pneumophila serogroup2-15 on glass, galvanized steel, stainless steel, copper, Polyvinyl chloride(PVC), Cross-linked polyethylene(PEX-c) and Polypropylene Random Copolymer(PPR). The surface physicochemical properties of both bacterial cells and materials were estimated through contact angle measurements. The roughness and surface topography of the materials were evaluated by Atomic Force Microscopy. The two L. pneumophila serogroups and plumbing materials showed a hydrophobic character, while glass surface was hydrophilic. All strains were adhered to all materials with the exception of copper. The result showed that the adhesion of both L. pneumophila sg1 and sg2-15 was systematically expressed with high intensity on galvanized steel followed by PVC, PEX-c, PPR, stainless steel and the low intensity on glass. The extent of adhesion is in correlation with the surface roughness and acid-bases interactions, while hydrophobicity seems to have no effect in adhesion intensity.

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Hafida Zahir

The relation between Escherichia coli surface functional groups' composition and their physicochemical properties

The Relation Between the Surface Chemical Composition of Escherichia coli and their Electron Donor/Electron Acceptor (Acid-base) Properties

Effect of temperature and plumbing materials on biofilm formation byLegionella pneumophilaserogroup 1 and 2-15

Effects of subinhibitory concentrations of nitroxoline on the surface properties ofEscherichia coli

Adhesion of Legionella pneumophila on glass and plumbing materials commonly used in domestic water systems

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