Flow cytometry in microbiology : technology and applications /

Flow cytometry is a powerful technique for the rapid analysis of single cells in a mixture. In microbiology, flow cytometry permits the reliable and rapid detection of single or multiple microbes and can provide information about their distribution within cell populations. Flow cytometry may also le...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Wilkinson, Martin G. (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Norfolk : Caister Academic Press, [2015]
Temas:
Flow cytometry.
Microbiology > Technique.
Microbiological Techniques
Flow Cytometry
Cytométrie de flux.
Microbiologie > Technique.
SCIENCE > Life Sciences > Evolution.
Flow cytometry
Microbiology > Technique
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Current Books of Interest; Contributors; Introduction; 1: Microbial Cytometry: What It Was, Is, and May Be; Introduction; Tasks in microbial cytometry: motives and methods; From microscopy to cytometry: more than meets the eye; Intrinsic parameters; Extrinsic parameters; Microscopy versus cytometry: the eyes do not have it; Cytometric options: thinking outside and inside the box; 2: Non-destructive On-chip Imaging Cytometry Assay for Constructive On-chip Cellomics Studies; Introduction; A fully automated on-chip imaging flow cytometry system.
  • Applications of on-chip imaging cytometry technologiesSummary; 3: Application of Flow Cytometry to Environmental Biotechnology; Introduction; Application to drinking water quality; Application to wastewater treatments; Application to solid waste treatments; Bacterial viability in soils and sediments; Future trends; 4: Flow Cytometry and Microbial Community Fingerprinting; What are natural communities?; Community structure analysis using flow cytometry; Community composition analysis using fingerprinting techniques.
  • Combination of community fingerprinting and single cell analysis by cell sorting5: Application of Flow Cytometry to the Detection of Pathogenic Bacteria; Microbial pathogenesis; Advantages of flow cytometry for pathogen detection; Challenges in pathogen detection; Instrument set up; Sample preparation; Immunolabelling; Fluorescence in situ hybridisation (FISH); Green fluorescent protein (GFP); Quantum dot labelling; FCM analysis of food samples; FCM analysis of clinical samples; Physiology of microbial pathogens and FCM analysis; Cell separation/cell sorting; Conclusion.
  • 6: The Use of Flow Cytometry to Study Sporeforming BacteriaIntroduction; The importance of spore formers; Spore formers and flow cytometry: a review of past studies; Potential applications of flow cytometry to the study of spore formers; Conclusions; 7: Flow Cytometry of Yeasts and Other Fungi; Introduction; Flow cytometry and FACS to investigate cell and molecular biology; Medical applications of FCM; FCM for bioprocess monitoring and development; Cell engineering and screening using FACS; Molecular screening methods using yeast and FACS.
  • New methods and technology related to, and developed from, FCM and FACSConclusion; 8: The Application of Flow Cytometry to the Study of Lactic Acid Bacteria Fermentations; Introduction; Traditional methods used to monitor LAB and a comparison with flow cytometry methodology; Flow cytometry (FCM); Specific examples of flow cytometry and LAB analysis; Starter performance; Cheese manufacture and FCM applications; Probiotic bacteria; Sample preparation; Conclusion; 9: Flow Cytometry for Rapid Microbiological Analysis of Drinking Water: From Science to Practice
  • An Unfinished Story.

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