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Journal Abstract Search

112 related items for PubMed ID: 24404893

  • 1. Impact of the exopolysaccharides Pel and Psl on the initial adhesion of Pseudomonas aeruginosa to sand.
    Tian L, Xu S, Hutchins WC, Yang CH, Li J.
    Biofouling; 2014 Feb; 30(2):213-22. PubMed ID: 24404893
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  • 2. Role of exopolysaccharides in Pseudomonas aeruginosa biofilm formation and architecture.
    Ghafoor A, Hay ID, Rehm BH.
    Appl Environ Microbiol; 2011 Aug; 77(15):5238-46. PubMed ID: 21666010
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  • 3. Impact of an extracellular polymeric substance (EPS) precoating on the initial adhesion of Burkholderia cepacia and Pseudomonas aeruginosa.
    Hwang G, Kang S, El-Din MG, Liu Y.
    Biofouling; 2012 Aug; 28(6):525-38. PubMed ID: 22686692
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  • 4. The role of alginate in Pseudomonas aeruginosa EPS adherence, viscoelastic properties and cell attachment.
    Orgad O, Oren Y, Walker SL, Herzberg M.
    Biofouling; 2011 Aug; 27(7):787-98. PubMed ID: 21797737
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  • 5. The role of exopolysaccharides Psl and Pel in resistance of Pseudomonas aeruginosa to the oxidative stressors sodium hypochlorite and hydrogen peroxide.
    da Cruz Nizer WS, Allison KN, Adams ME, Vargas MA, Ahmed D, Beaulieu C, Raju D, Cassol E, Howell PL, Overhage J.
    Microbiol Spectr; 2024 Oct 03; 12(10):e0092224. PubMed ID: 39194290
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  • 6. Flagella but not type IV pili are involved in the initial adhesion of Pseudomonas aeruginosa PAO1 to hydrophobic or superhydrophobic surfaces.
    Bruzaud J, Tarrade J, Coudreuse A, Canette A, Herry JM, Taffin de Givenchy E, Darmanin T, Guittard F, Guilbaud M, Bellon-Fontaine MN.
    Colloids Surf B Biointerfaces; 2015 Jul 01; 131():59-66. PubMed ID: 25950497
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  • 9. Low concentrations of ethanol stimulate biofilm and pellicle formation in Pseudomonas aeruginosa.
    Tashiro Y, Inagaki A, Ono K, Inaba T, Yawata Y, Uchiyama H, Nomura N.
    Biosci Biotechnol Biochem; 2014 Jul 01; 78(1):178-81. PubMed ID: 25036502
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  • 10. Influence of membrane surface properties on the behavior of initial bacterial adhesion and biofilm development onto nanofiltration membranes.
    Myint AA, Lee W, Mun S, Ahn CH, Lee S, Yoon J.
    Biofouling; 2010 Jul 01; 26(3):313-21. PubMed ID: 20087803
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  • 11. Non-eluting, surface-bound enzymes disrupt surface attachment of bacteria by continuous biofilm polysaccharide degradation.
    Asker D, Awad TS, Baker P, Howell PL, Hatton BD.
    Biomaterials; 2018 Jun 01; 167():168-176. PubMed ID: 29571052
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  • 16. Hydrophobicity of biofilm coatings influences the transport dynamics of polystyrene nanoparticles in biofilm-coated sand.
    Mitzel MR, Sand S, Whalen JK, Tufenkji N.
    Water Res; 2016 Apr 01; 92():113-20. PubMed ID: 26845456
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  • 17. Kinetic adhesion of bacterial cells to sand: cell surface properties and adhesion rate.
    Jacobs A, Lafolie F, Herry JM, Debroux M.
    Colloids Surf B Biointerfaces; 2007 Sep 01; 59(1):35-45. PubMed ID: 17537618
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  • 18. Influence of extracellular polymeric substances on Pseudomonas aeruginosa transport and deposition profiles in porous media.
    Liu Y, Yang CH, Li J.
    Environ Sci Technol; 2007 Jan 01; 41(1):198-205. PubMed ID: 17265948
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  • 19. Role of Pel and Psl polysaccharides in the response of Pseudomonas aeruginosa to environmental challenges: oxidative stress agents (UVA, H2O2, sodium hypochlorite) and its competitor Staphylococcus aureus.
    Grossich R, Lemos Vilches M, Costa CS, Pezzoni M.
    Microbiology (Reading); 2023 Feb 01; 169(2):. PubMed ID: 36757866
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  • 20. Influence of (bi)carbonate on bacterial interaction with quartz and metal oxide-coated surfaces.
    Park SJ, Kim SB.
    Colloids Surf B Biointerfaces; 2010 Mar 01; 76(1):57-62. PubMed ID: 19896343
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