Journal ArticleDOI
Roles of type IV pili, flagellum-mediated motility and extracellular DNA in the formation of mature multicellular structures in Pseudomonas aeruginosa biofilms.
Kim Bundvig Barken,Sünje Johanna Pamp,Liang Yang,Morten Gjermansen,Jacob J. Bertrand,Mikkel Klausen,Michael Givskov,Cynthia B. Whitchurch,Joanne N. Engel,Tim Tolker-Nielsen +9 more
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TLDR
Evidence is presented that type IV pili, flagellum-mediated motility and quorum sensing-controlled DNA release are involved in the formation of mature multicellular structures in P. aeruginosa biofilms.Abstract:
When grown as a biofilm in laboratory flow chambers Pseudomonas aeruginosa can develop mushroom-shaped multicellular structures consisting of distinct subpopulations in the cap and stalk portions. We have previously presented evidence that formation of the cap portion of the mushroom-shaped structures in P. aeruginosa biofilms occurs via bacterial migration and depends on type IV pili (Mol Microbiol 50: 61-68). In the present study we examine additional factors involved in the formation of this multicellular substructure. While pilA mutants, lacking type IV pili, are deficient in mushroom cap formation, pilH and chpA mutants, which are inactivated in the type IV pili-linked chemosensory system, showed only minor defects in cap formation. On the contrary, fliM mutants, which are non-flagellated, and cheY mutants, which are inactivated in the flagellum-linked chemotaxis system, were largely deficient in cap formation. Experiments involving DNase treatment of developing biofilms provided evidence that extracellular DNA plays a role in cap formation. Moreover, mutants that are deficient in quorum sensing-controlled DNA release formed microcolonies upon which wild-type bacteria could not form caps. These results constitute evidence that type IV pili, flagellum-mediated motility and quorum sensing-controlled DNA release are involved in the formation of mature multicellular structures in P. aeruginosa biofilms.read more
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Cyclic di-GMP: the First 25 Years of a Universal Bacterial Second Messenger
TL;DR: A historic perspective on the development of the field is provided, common trends are emphasized, and new directions in c-di-GMP research are highlighted that will give a deeper understanding of this truly universal bacterial second messenger.
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Pseudomonas aeruginosa Lifestyle: A Paradigm for Adaptation, Survival, and Persistence.
TL;DR: The central regulatory role of quorum sensing and signaling systems by nucleotide-based second messengers resulting in different lifestyles of P. aeruginosa is reviewed and various regulatory proteins will be discussed which form a plethora of controlling systems acting at transcriptional level for timely expression of genes enabling rapid responses to external stimuli and unfavorable conditions.
Journal ArticleDOI
Bacterial Biofilms: Development, Dispersal, and Therapeutic Strategies in the Dawn of the Postantibiotic Era
TL;DR: A general review of the steps leading to biofilm formation on surfaces and within eukaryotic cells is provided, highlighting several medically important pathogens, and recent advances on novel strategies aimed at biofilm prevention and/or dissolution are discussed.
Journal ArticleDOI
Should we stay or should we go: mechanisms and ecological consequences for biofilm dispersal.
Diane McDougald,Diane McDougald,Scott A. Rice,Scott A. Rice,Nicolas Barraud,Peter D. Steinberg,Staffan Kjelleberg,Staffan Kjelleberg +7 more
TL;DR: Recent progress in this emerging field is reviewed and it is suggested that the merging of detailed molecular mechanisms with ecological theory will significantly advance understanding of biofilm biology and ecology.
Journal ArticleDOI
Pseudomonas aeruginosa Twitching Motility: Type IV Pili in Action
TL;DR: This review covers recent findings concerning the three different types of T4P found in P. aeruginosa (type IVa, type IVb, and Tad) and provides details about the modes of translocation mediated by T4aP, the architecture and function of the T4 aP assembly system, and the complex regulation of T 4aP biogenesis and function.
References
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Journal ArticleDOI
Bacterial biofilms: from the natural environment to infectious diseases.
TL;DR: It is evident that biofilm formation is an ancient and integral component of the prokaryotic life cycle, and is a key factor for survival in diverse environments.
Journal ArticleDOI
Complete genome sequence of Pseudomonas aeruginosa PAO1, an opportunistic pathogen.
Charles K. Stover,X. Q. Pham,A. L. Erwin,S. D. Mizoguchi,Paul Warrener,Mark J. Hickey,Fiona S. L. Brinkman,W. O. Hufnagle,D. J. Kowalik,Lagrou Mj,R. L. Garber,L. Goltry,E. Tolentino,S. Westbrock-Wadman,Ying Yuan,L. L. Brody,S. N. Coulter,K. R. Folger,Arnold Kas,K. Larbig,R. Lim,Kelly D. Smith,David H. Spencer,Gane Ka-Shu Wong,Z. Wu,Ian T. Paulsen,Ian T. Paulsen,Jonathan Reizer,Milton H. Saier,Robert E. W. Hancock,Stephen Lory,Maynard V. Olson +31 more
TL;DR: It is proposed that the size and complexity of the P. aeruginosa genome reflect an evolutionary adaptation permitting it to thrive in diverse environments and resist the effects of a variety of antimicrobial substances.
Journal ArticleDOI
The involvement of cell-to-cell signals in the development of a bacterial biofilm
David G. Davies,Matthew R. Parsek,Matthew R. Parsek,Matthew R. Parsek,James P. Pearson,James P. Pearson,James P. Pearson,Barbara H. Iglewski,Barbara H. Iglewski,Barbara H. Iglewski,J. W. Costerton,J. W. Costerton,J. W. Costerton,E. P. Greenberg,E. P. Greenberg,E. P. Greenberg +15 more
TL;DR: The involvement of an intercellular signal molecule in the development of Pseudomonas aeruginosa biofilms suggests possible targets to control biofilm growth on catheters, in cystic fibrosis, and in other environments where P. aerug inosaBiofilms are a persistent problem.
Journal ArticleDOI
Microbial Biofilms: from Ecology to Molecular Genetics
Mary E. Davey,George A. O'Toole +1 more
TL;DR: The recent explosion in the field of biofilm research has led to exciting progress in the development of new technologies for studying these communities, advanced the authors' understanding of the ecological significance of surface-attached bacteria, and provided new insights into the molecular genetic basis ofBiofilm development.
Journal ArticleDOI
Extracellular DNA Required for Bacterial Biofilm Formation
TL;DR: Bacterial biofilms are structured communities of cells enclosed in self-produced hydrated polymeric matrix adherent to an inert or living surface that have inherent resistance to antibiotics and host immune attack.
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