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Small molecule triggers bacterial community
December 23, 2008While bacterial cells tend to be rather solitary individuals, they are also known to form intricately structured communities called biofilms. But until now, no one has known the mechanisms that cause isolated bacteria to suddenly aggregate into a social network. New insights from the lab of Harvard Medical School microbial geneticist Roberto Kolter reveal previously unknown communication pathways that cause such social phenomenon.
Using the non-pathogenic Bacillus subtilis as a model organism, Kolter and postdoctoral researcher Daniel Lopez discovered a group of natural, soil-based products that trigger communal behavior in bacteria. One molecule in particular, surfactin, is produced by B. subtilis. Biofilm formation begins when surfactin, and other similar molecules, cause bacteria to leak potassium. As potassium levels decline, a membrane protein on the bacterium stimulates a cascade of gene activity that signals neighboring cells to form a quorum. As a result, biofilms form.
"Typically, scientists try to discover new antibiotics through some rather blunt means, like simply looking to see if one bacterium can kill another," says Kolter. "This discovery of a single molecule causing such a dramatic response in bacteria hints at a new and potentially effective way to possibly discover antibiotics."
Harvard Medical School
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Cool plasma packs heat against biofilms
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hus the bile does not overflow
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Corrosion-inhibiting coatings containing 'good' bacteria
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Genes that make bacteria make up their minds
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The Biofilm Primer (Springer Series on Biofilms) by J. William Costerton (Author) This book details the widely accepted hypothesis that the majority of bacteria in virtually all ecosystems grow in matrix-enclosed biofilms. The author, who proposed this biofilm hypothesis, uses direct evidence from microscopy and from molecular techniques, presenting cogent reasons for moving beyond conventional culture methods that dominated microbiology throughout the last century. Bacteria grow predominantly in biofilms in all natural, engineered, and pathogenic ecosystems, and this book provides a solid basis for the understanding of bacterial processes in environmental, industrial, agricultural, dental and medical microbiology. Using a unique "ecological" perspective, the author explores the commensal and pathogenic colonization of human organ systems. |
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Fundamentals of Biofilm Research by Zbigniew Lewandowski (Author), Haluk Beyenal (Author) The history of natural sciences demonstrates that major advances in the understanding of natural processes follow the development of relevant tools. The progress of biofilm research is no different. While individual areas have mushroomed in recent years, difficulties in reproducing results, communicating new findings, and reconciling differences in conceptual versus mathematical advances are holding back the true growth of the field. Fundamentals of Biofilm Research offers a system of compatible tools and measurements that can be used to conduct biofilm studies and consistently interpret their results. After extensive testing and refinement in labs and classrooms over twenty years, the authors introduce a coherent system of conceptual, physical, computational, and virtual tools to... |
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Microbial Biofilms by Mahmoud Ghannoum (Author), George OToole (Author) |
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Biofilms in the Aquatic Environment (Special Publications) by Keevil (Editor), A. Godfree (Editor), D. Holt (Editor), C.S. Dow (Editor) Proceedings of the International Conference on Biofilms in Aquatic Systems, held on April 13-16, 1997 at the University of Warwick, UK. Addresses issues relating to the structure and physiology of biofilms in aquatic systems, in particular, strategies for treatment and control. For microbiologists, scientists, and engineers. |
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PBF Mouthwash, Plaque-Biofilm Dissolving Formula 16 OZ by Biotene Dental Products / 16 Oz. by Biotene Dental Biotene PBF Plaque-Biofilm Dissolving Mouthwash. Plaque is a biofilm created by bacteria to hide within. If not controlled, plaque can lead to hard to remove tartar, excessive bacterial growth, tooth decay, gum disease, and bad breath. Biotene PBF's breakthrough chemistry dissolves excessive plaque-biofilm, freshens breath longer and brings out the natural whiteness in teeth. The all-new mouthwash also contains Biotene's proven LP3 salivary enzyme system to strengthen the natural antibacterial system found in saliva. Biotene PBF mouthwash is alcohol free, sweetened with Xyitol to fight cavities and does not include any SLS or chlorine compounds. Essential for anyone with dry mouth or oral irritations, now your patients can prevent the build-up of excessive plaque-biofilm for better dental... |
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Biofilms in the Food and Beverage Industries by P. Fratamico (Editor), B. Annous (Editor), J. Guenther (Editor) Biofilms in the Food and Beverage Industries reviews the formation of biofilms and the best practices for their control. When bacteria attach to and colonize the surfaces of food processing equipment and food products themselves, there is a risk that biofilms may form. Human pathogens in biofilms can be harder to remove than free microorganisms and may therefore pose a more significant food safety risk. | |
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Biofilms: An Introduction to Microbial Biofilm Science and Engineering Concepts CD-ROM Starring: Paul Stoodley Directed By: Ryan Jordan | |
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Bacterial Biofilms (Current Topics in Microbiology and Immunology) by Tony Romeo (Editor) Throughout the biological world, bacteria thrive predominantly in surface attached, matrix enclosed, multicellular communities or biofilms, as opposed to isolated planktonic cells. This choice of lifestyle is not trivial, as it involves major shifts in the use of genetic information and cellular energy, and has profound consequences for bacterial physiology and survival. Growth within a biofilm can thwart immune function and antibiotic therapy and thereby complicate the treatment of infectious diseases, especially chronic and foreign device-associated infections. Modern studies of many important biofilms have advanced well beyond the descriptive stage, and have begun to provide molecular details of the structural, biochemical and genetic processes that drive biofilm formation and its... |
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Biotene PBF Plaque Dissolving Mouthwash, 33.8-Ounce Bottle by GlaxoSmithKline INDICATIONS: Biotene PBF Plaque Biofilm Dissolving Formula Mouthwash with Calcium with Calcium. No 1 Dentist Recommended Brand For Dry Mouth. Plaque Biofilm Dissolving Formula. Alcohol-Free. Removes Plaque Biofilm Where Bacteria Hide. |
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Control of Biofilm Infections by Signal Manipulation (Springer Series on Biofilms) by Naomi Balaban (Editor), J.W. Costerton (Editor) The medical miracle of antibiotics is being eroded by the emergence and spread of bacterial drug resistance. This is compounded by the fact that bacterial biofilms are believed to be a common cause of persistent infections, when because growing in biofilms, bacteria are protected from the host’s immune response and from antibiotics. In addition, biofilms may spawn systemic infections by sloughing of planktonic bacteria, leading to dissemination, bacteremia, sepsis, and death. The number of patients affected by and dying from what can be considered as a “biofilm disease” is higher than heart disease and cancer combined, making medical biofilms the biggest single disease that the healthcare system is facing today. |
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