Darren R. Korber scite author profile

Direct observations have clearly shown that biofilm bacteria predominate, numerically and metabolically, in virtually all nutrient-sufficient ecosystems. Therefore, these sessile organisms predominate in most of the environmental, industrial, and medical problems and processes of interest to microbiologists. If biofilm bacteria were simply planktonic cells that had adhered to a surface, this revelation would be unimportant, but they are demonstrably and profoundly different. We first noted that biofilm cells are at least 500 times more resistant to antibacterial agents. Now we have discovered that adhesion triggers the expression of a sigma factor that derepresses a large number of genes so that biofilm cells are clearly phenotypically distinct from their planktonic counterparts. Each biofilm bacterium lives in a customized microniche in a complex microbial community that has primitive homeostasis, a primitive circulatory system, and metabolic cooperativity, and each of these sessile cells reacts to its special environment so that it differs fundamentally from a planktonic cell of the same species.

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Biofilms, the customized microniche

Costerton

et al. 1994

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Optical sectioning of microbial biofilms

et al. 1991

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Scanning confocal laser microscopy (SCLM) was used to visualize fully hydrated microbial biofilms. The improved rejection of out-of-focus haze and the increased resolution of SCLM made it preferable to conventional phase microscopy for the analysis of living biofflms. The extent of image improvement was dependent on the characteristics of individual biofilms and was most apparent when films were dispersed in three dimensions, when they were thick, and when they contained a high number of cells. SCLM optical sections were amenable to quantitative computer-enhanced microscopy analyses, with minimal interference originating from overlying or underlying cell material. By using SCLM in conjunction with viable negative fluorescence staining techniques, horizontal (xy) and sagittal (xz) sections of intact bioMflms of Pseudomonas aeruginosa, Pseudomonasfluorescens, and Vibrio parahaemolyticus were obtained. These optical sections were then analyzed by image-processing techniques to assess the distribution of cellular and noncellular areas within the biofilm matrices. The Pseudomonas biofllms were most cell dense at their attachment surfaces and became increasingly diffuse near their outer regions, whereas the Vibrio biofilms exhibited the opposite trend. BioMflms consisting of different species exhibited distinctive arrangements of the major biofilm structural components (cellular and extracellular materials and space). In general, biofilms were found to be highly hydrated, open structures composed of 73 to 98% extracellular materials and space. The use of xz sectioning revealed more detail of biofilm structure, including the presence of large void spaces within the Vibrio biofilms. In addition, three-dimensional reconstructions of biofilms were constructed and were displayed as stereo pairs. Application of the concepts of architectural analysis to mixed-or pure-species biofilms will allow detailed examination of the relationships among biofilm structure, adaptation, and response to stress.Biofilms are organized multicellular systems with structural and functional architecture which influence metabolic processes, response to nutrients, resistance to antimicrobial agents, predation, and other factors. Structural studies of microbial biofilms and their formation have been performed by using light microscopy to examine wet mounts (16,23), by using transmission and scanning electron microscopy (12)(13)(14)(15)24), and by developing conceptual models (12). Electron microscopy techniques are laborious and can produce artifacts resulting from sample preparation and limit three-dimensional (3D) reconstruction of biofilms. Light microscopy used in conjunction with computer-enhanced microscopy (CEM) is an effective tool, but it is best applied during the early phases of biofilm development (7,16,19,20). Scanning confocal laser microscopy (SCLM) offers the promise of detailed visualization of thick microbiological samples in cases in which application of traditional phase or fluorescence microscopy is limited. SCLM allows eliminat...

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Next-Generation Sequencing of Microbial Communities in the Athabasca River and Its Tributaries in Relation to Oil Sands Mining Activities

Yergeau

Lawrence

Sanschagrin

et al. 2012

Appl Environ Microbiol

204

134

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The Athabasca oil sands deposit is the largest reservoir of crude bitumen in the world. Recently, the soaring demand for oil and the availability of modern bitumen extraction technology have heightened exploitation of this reservoir and the potential unintended consequences of pollution in the Athabasca River. The main objective of the present study was to evaluate the potential impacts of oil sands mining on neighboring aquatic microbial community structure. Microbial communities were sampled from sediments in the Athabasca River and its tributaries as well as in oil sands tailings ponds. Bacterial and archaeal 16S rRNA genes were amplified and sequenced using next-generation sequencing technology (454 and Ion Torrent). Sediments were also analyzed for a variety of chemical and physical characteristics. Microbial communities in the fine tailings of the tailings ponds were strikingly distinct from those in the Athabasca River and tributary sediments. Microbial communities in sediments taken close to tailings ponds were more similar to those in the fine tailings of the tailings ponds than to the ones from sediments further away. Additionally, bacterial diversity was significantly lower in tailings pond sediments. Several taxonomic groups of Bacteria and Archaea showed significant correlations with the concentrations of different contaminants, highlighting their potential as bioindicators. We also extensively validated Ion Torrent sequencing in the context of environmental studies by comparing Ion Torrent and 454 data sets and by analyzing control samples.

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Probiotic-based strategies for therapeutic and prophylactic use against multiple gastrointestinal diseases

2015

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Probiotic bacteria offer a number of potential health benefits when administered in sufficient amounts that in part include reducing the number of harmful organisms in the intestine, producing antimicrobial substances and stimulating the body’s immune response. However, precisely elucidating the probiotic effect of a specific bacterium has been challenging due to the complexity of the gut’s microbial ecosystem and a lack of definitive means for its characterization. This review provides an overview of widely used and recently described probiotics, their impact on the human’s gut microflora as a preventative treatment of disease, human/animal models being used to help show efficacy, and discusses the potential use of probiotics in gastrointestinal diseases associated with antibiotic administration.

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Darren R. Korber

Microbial Biofilms

Biofilms, the customized microniche

Optical sectioning of microbial biofilms

Next-Generation Sequencing of Microbial Communities in the Athabasca River and Its Tributaries in Relation to Oil Sands Mining Activities

Probiotic-based strategies for therapeutic and prophylactic use against multiple gastrointestinal diseases

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