Literature DB >> 23412845

Type 1 and type 2 strains of Mycoplasma pneumoniae form different biofilms.

Warren L Simmons1, James M Daubenspeck, John D Osborne, Mitchell F Balish, Ken B Waites, Kevin Dybvig.   

Abstract

Several mycoplasma species have been shown to form biofilms that confer resistance to antimicrobials and which may affect the host immune system, thus making treatment and eradication of the pathogens difficult. The present study shows that the biofilms formed by two strains of the human pathogen Mycoplasma pneumoniae differ quantitatively and qualitatively. Compared with strain UAB PO1, strain M129 grows well but forms biofilms that are less robust, with towers that are less smooth at the margins. A polysaccharide containing N-acetylglucosamine is secreted by M129 into the culture medium but found in tight association with the cells of UAB PO1. The polysaccharide may have a role in biofilm formation, contributing to differences in virulence, chronicity and treatment outcome between strains of M. pneumoniae. The UAB PO1 genome was found to be that of a type 2 strain of M. pneumoniae, whereas M129 is type 1. Examination of other M. pneumoniae isolates suggests that the robustness of the biofilm correlates with the strain type.

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Year:  2013        PMID: 23412845      PMCID: PMC4036059          DOI: 10.1099/mic.0.064782-0

Source DB:  PubMed          Journal:  Microbiology        ISSN: 1350-0872            Impact factor:   2.777


  47 in total

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3.  ABySS-Explorer: visualizing genome sequence assemblies.

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Journal:  IEEE Trans Vis Comput Graph       Date:  2009 Nov-Dec       Impact factor: 4.579

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Authors:  Anna C Nilsson; Per Björkman; Christina Welinder-Olsson; Anders Widell; Kenneth Persson
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6.  progressiveMauve: multiple genome alignment with gene gain, loss and rearrangement.

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7.  Mycoplasma biofilms ex vivo and in vivo.

Authors:  Warren L Simmons; Kevin Dybvig
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8.  Identification of exopolysaccharide-deficient mutants of Mycoplasma pulmonis.

Authors:  James M Daubenspeck; Jeffrey R Bolland; Wenyi Luo; Warren L Simmons; Kevin Dybvig
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9.  Fast and accurate short read alignment with Burrows-Wheeler transform.

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Journal:  Bioinformatics       Date:  2009-05-18       Impact factor: 6.937

Review 10.  Bacterial extracellular polysaccharides involved in biofilm formation.

Authors:  Barbara Vu; Miao Chen; Russell J Crawford; Elena P Ivanova
Journal:  Molecules       Date:  2009-07-13       Impact factor: 4.411
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2.  Mycoplasma pneumoniae Pneumonia with Worsening Pleural Effusion Despite Treatment with Appropriate Antimicrobials: Case report.

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Review 3.  Mycoplasma pneumoniae from the Respiratory Tract and Beyond.

Authors:  Ken B Waites; Li Xiao; Yang Liu; Mitchell F Balish; T Prescott Atkinson
Journal:  Clin Microbiol Rev       Date:  2017-07       Impact factor: 26.132

4.  Novel strategy for typing Mycoplasma pneumoniae isolates by use of matrix-assisted laser desorption ionization-time of flight mass spectrometry coupled with ClinProTools.

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5.  Catalase Enhances Growth and Biofilm Production of Mycoplasma pneumoniae.

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6.  Rhamnose biosynthesis in mycoplasmas requires precursor glycans larger than monosaccharide.

Authors:  David S Jordan; James M Daubenspeck; Kevin Dybvig
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7.  Modelling persistent Mycoplasma pneumoniae infection of human airway epithelium.

Authors:  Oliver A Prince; Thomas M Krunkosky; Edward S Sheppard; Duncan C Krause
Journal:  Cell Microbiol       Date:  2017-12-22       Impact factor: 3.715

8.  Mycoplasma agalactiae Secretion of β-(1→6)-Glucan, a Rare Polysaccharide in Prokaryotes, Is Governed by High-Frequency Phase Variation.

Authors:  P Gaurivaud; E Baranowski; C Pau-Roblot; E Sagné; C Citti; F Tardy
Journal:  Appl Environ Microbiol       Date:  2016-05-16       Impact factor: 4.792

9.  Clinical characteristics of infections caused by Mycoplasma pneumoniae P1 genotypes in children.

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10.  Mycoplasma pneumoniae P1 Genotype Indicates Severity of Lower Respiratory Tract Infections in Children.

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