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Different strategies underlie the ecology of microbial invasions
October 24, 2006Infectious disease can play a key role in mediating the outcome of competition between rival groups, as seen in the effects of disease-bearing conquistadors in the New World-or, on a much smaller ecological scale, the ability of bacteria to spread their viruses to competing bacteria. In a new study, researchers have compared two different general ways in which bacteria compete with one another, and they have found that each strategy seems to be particularly effective under different ecological circumstances-for example, depending on whether the bacteria are rare invaders or abundant residents. The findings, reported by a group of researchers including Sam P. Brown of the University of Texas at Austin, Cambridge University, and University of Montpellier II, and François Taddei of University of Paris, appear in the October 24th issue of Current Biology.
Bacteria are not always so fortunate as to grow alone in their environment, and they often face competition from other lineages. One widespread solution is to kill these competitors.
In the new work, the researchers explored the relative value to both invading and defensive bacteria of two distinct microbial mechanisms of killing competitors: through the release of chemicals (for example, antibiotics or bacteriocins) and through the release of parasites (for example, bacterial viruses, known as phages). Focusing on the second mechanism in an experimental setting, the researchers showed that even though some of the invading bacteria can be killed by their own phage parasites, upon their death they release a burst of infectious parasites that can kill competitor bacteria. Unlike chemical killing, released parasites trigger an epidemic among susceptible competitors, which become factories producing more parasites. Amplification therefore makes phage carriers able to successfully compete with phage-susceptible bacteria even faster when the carriers are rare, whereas chemical killers can only win in a well-mixed environment when chemical carriers are sufficiently abundant. The findings show that the release of chemical toxins is superior as a resident strategy to repel invasions, whereas the release of parasites is superior as a strategy of invasion.
Cell Press
Cell Press
Plastics suspect in lobster illness
The search for what causes a debilitating shell disease affecting lobsters from Long Island Sound to Maine has led one Marine Biological Laboratory (MBL) visiting scientist to suspect environmental alkyphenols, formed primarily by the breakdown of hard transparent plastics.
More Microbial Invasions Current Events and Microbial Invasions News Articles
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Microbial Adhesion and Invasion by Magnus Hook (Editor), Lech Switalski (Editor) | |
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Phagocytosis: Microbial Invasion (Advances in Cellular and Molecular Biology of Membranes and Organelles) by S. Gordon (Editor) The present volume focuses on microbial invasion strategies of pathogen uptake. An accompanying volume (Vol. 5) in the series presents the phagocytic process from the viewpiont of the host cell. This field of study is growing rapidly after a somewhat slow start over recent decades. This collection of invited chapters attempts to reflect current research and brings together cell biologists, microbiologists, and immunologists wiht disthemes, hopefully like a symphony rather than a boring catalogue. It will be evident that editorial bias favors intracellular parasitism and medically important organisms. The neutrophil is far more than a supporting player to the macrophage and some attempt is made to remind the reader of some of its unique skills. To retain a manageable size, the... |
![Invasion of a deciduous forest by earthworms: Changes in soil chemistry, microflora, microarthropods and vegetation [An article from: Soil Biology and Biochemistry]](http://ecx.images-amazon.com/images/I/51FQM3CAMYL._SL160_.jpg) |
Invasion of a deciduous forest by earthworms: Changes in soil chemistry, microflora, microarthropods and vegetation [An article from: Soil Biology and Biochemistry] by N. Eisenhauer (Author), S. Partsch (Author), D. Parkinson (Author), S. Scheu (Author) This digital document is a journal article from Soil Biology and Biochemistry, published by Elsevier in 2007. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser. Description: Ecosystems of northern North America existed without earthworm fauna until European settlers arrived and introduced European species. The current extent of invasion by some of these species, Lumbricus terrestris L., Octolasion tyrtaeum Savigny and Dendrobaena octaedra Savigny, into an aspen forest in the Canadian Rocky Mountains and the effects of the invasion on soil chemistry, microflora, soil microarthropods and vegetation were investigated. Densities of earthworm species, soil structure, plant... |
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Elevated CO"2 differentially alters belowground plant and soil microbial community structure in reed canary grass-invaded experimental wetlands [An article from: Soil Biology and Biochemistry] by J. Kao-Kniffin (Author), T.C. Balser (Author) This digital document is a journal article from Soil Biology and Biochemistry, published by Elsevier in 2007. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser. Description: Several recent studies have indicated that an enriched atmosphere of carbon dioxide (CO"2) could exacerbate the intensity of plant invasions within natural ecosystems, but little is known of how rising CO"2 impacts the belowground characteristics of these invaded systems. In this study, we examined the effects of elevated CO"2 and nitrogen (N) inputs on plant and soil microbial community characteristics of plant communities invaded by reed canary grass, Phalaris arundinacea L. We grew the invasive grass... |
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Bacterial Invasion into Eukaryotic Cells (SUBCELLULAR BIOCHEMISTRY Volume 33) by Tobias A. Oelschlaeger (Editor), Jörg H. Hacker (Editor) This latest volume in the excellent Subcellular Biochemistry series is the first attempt to give an in-depth overview of the field of bacterial cell invasion. The current knowledge about all well-studied bacteria with the ability to invade eukaryotic cells is brought together, including bacteria pathogenic to humans and animals as well as the symbiotic rhizobia. Several chapters also deal with new approaches and applications regarding invasive bacteria. The book, which includes contributions from worldwide experts, discusses bacterial invasion ability within the context of bacteria--host cell interaction with the main focus on pathogenicity. |
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Bacterial Invasion of Host Cells (Advances in Molecular and Cellular Microbiology) by Richard J. Lamont (Editor) Understanding the molecular basis of bacterial invasion and of host cell adaptation to intracellular bacteria will provide fundamental insights into the pathophysiology of bacteria and the cell biology of the host. This book details specific examples of bacteria that are masters of manipulation of eukaryotic cell signaling and relates these events to the broader context of host-pathogen interaction. Written by experts in the field, it will be of interest to researchers and graduate students in microbiology, immunology, and biochemistry, as well as in molecular medicine and dentistry. |
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