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Gram-Negative Aerobic Bacteria --- Colistin

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ANTI-ULCER AGENTS --- GRAM-NEGATIVE AEROBIC BACTERIA --- OROPHARYNX --- AORTOCORONARY BYPASS --- ANTI-ULCER AGENTS --- GRAM-NEGATIVE AEROBIC BACTERIA --- OROPHARYNX --- AORTOCORONARY BYPASS

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OROPHARYNX --- GRAM-NEGATIVE AEROBIC BACTERIA --- CROSS INFECTION --- INTENSIVE CARE UNITS --- GASTROINTESTINAL SYSTEM --- ANTIBIOTICS --- LUNG DISEASES --- MICROBIOLOGY --- PREVENTION AND CONTROL --- MICROBIOLOGY --- THERAPEUTIC USE --- OROPHARYNX --- GRAM-NEGATIVE AEROBIC BACTERIA --- CROSS INFECTION --- INTENSIVE CARE UNITS --- GASTROINTESTINAL SYSTEM --- ANTIBIOTICS --- LUNG DISEASES --- MICROBIOLOGY --- PREVENTION AND CONTROL --- MICROBIOLOGY --- THERAPEUTIC USE

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Agrobacterium tumefaciens is a soil bacterium that for more than a century has been known as a pathogen causing the plant crown gall disease. Unlike many other pathogens, Agrobacterium has the ability to deliver DNA to plant cells and permanently alter the plant genome. The discovery of this unique feature 30 years ago has provided plant scientists with a powerful tool to genetically transform plants for both basic research purposes and for agric- tural development. Compared to physical transformation methods such as particle bomba- ment or electroporation, Agrobacterium-mediated DNA delivery has a number of advantages. One of the features is its propensity to generate single or a low copy number of integrated transgenes with defined ends. Integration of a single transgene copy into the plant genome is less likely to trigger “gene silencing” often associated with multiple gene insertions. When the first edition of Agrobacterium Protocols was published in 1995, only a handful of plants could be routinely transformed using Agrobacterium. Ag- bacterium-mediated transformation is now commonly used to introduce DNA into many plant species, including monocotyledon crop species that were previously considered non-hosts for Agrobacterium. Most remarkable are recent devel- ments indicating that Agrobacterium can also be used to deliver DNA to non-plant species including bacteria, fungi, and even mammalian cells.

Agrobacterium. --- Agricultureal biotechnology. --- Polymonas --- Agrobacterium --- Rhizobiaceae --- Rhizobium radiobacter --- Alphaproteobacteria --- Gram-Negative Aerobic Rods and Cocci --- Proteobacteria --- Gram-Negative Aerobic Bacteria --- Agrobacterium tumefaciens --- 579.841.32 --- 579.841.32 Agrobacterium --- Isolation & purification --- Gram Negative Bacteria --- Proteobacteria alpha --- alpha Proteobacteria --- Bacteriologic Technic --- Bacteriologic Technics --- Bacteriologic Techniques --- Bacteriological Technique --- Technic, Bacteriological --- Technics, Bacteriological --- Technique, Bacteriological --- Techniques, Bacteriological --- Bacteriologic Technique --- Bacteriological Technic --- Bacteriological Technics --- Technic, Bacteriologic --- Technics, Bacteriologic --- Technique, Bacteriologic --- Techniques, Bacteriologic --- Agrobacterium radiobacter --- Methodological Studies --- Methodological Study --- Studies, Methodological --- Study, Methodological --- Method --- Gram Negative Aerobic Bacteria --- Achromatiaceae --- Achromatium --- Achromobacteriaceae --- Bacteria, Purple --- Purple Bacteria --- Gram Negative Aerobic Rods and Cocci --- Rhizobium galegae --- Rhizobium lupini --- Agricultural biotechnology --- 57.083 --- Bacteriological Techniques --- Genetic Techniques --- Agro-biotechnology --- Biotechnology --- Genetic Technic --- Genetic Technics --- Genetic Technique --- Technic, Genetic --- Technics, Genetic --- Technique, Genetic --- Techniques, Genetic --- Genetics --- Genetic Counseling --- Genetic Phenomena --- 57.083 Microbiological, virological, immunological methods and techniques --- Microbiological, virological, immunological methods and techniques --- genetics --- isolation & purification --- methods --- Genetic Techniques. --- Agricultural biotechnology. --- Methods --- Botany. --- Plant Sciences. --- Botanical science --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Biology --- Natural history --- Plants --- Floristic botany

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Over 20 years have elapsed since publication of the seminal two volume series entitled Q Fever: The Biology of Coxiella burnetii (edited by J. C. Williams and H. A. Thompson) and Q fever: The Disease (edited by T. J. Marrie) that described the current state of Coxiella burnetii research. The ensuing years have brought the post-genomic era and accompanying technologies that have catalyzed major advances in the field, including milestones discoveries of genetic transformation and host cell-free growth of this former obligate intracellular bacterium. Understanding how the bacterium resists the degradative functions of vacuole, and the host cell functions coopted for successful parasitism, are central to understanding Q fever pathogenesis. Recent achievements in glycomics and proteomics are guiding development of enhanced detection schemes for the bacterium in addition to shedding light on the host immune response to the pathogen.   The book covers the current state-of-the-art knowledge in the selected fields of C. burnetii/Q fever research. Coxiella has matured from a niche organism, investigated by a handful of laboratories worldwide, to a model system to study macrophage parasitism, developmental biology, host-pathogen interactions, and immune evasion/modulation.

Coxiella burnetii. --- Infection -- Pathogenesis. --- Medical bacteriology. --- Q fever -- Pathogenesis. --- Coxiella burnetii --- Q fever --- Medical bacteriology --- Host-Pathogen Interactions --- Coxiella --- Adaptive Immunity --- Gram-Negative Bacterial Infections --- Biological Processes --- Immunity --- Bacterial Infections --- Coxiellaceae --- Gammaproteobacteria --- Immune System Phenomena --- Bacterial Infections and Mycoses --- Gram-Negative Aerobic Rods and Cocci --- Biological Phenomena --- Gram-Negative Aerobic Bacteria --- Proteobacteria --- Phenomena and Processes --- Diseases --- Gram-Negative Bacteria --- Bacteria --- Organisms --- Host-Parasite Interactions --- Immunity, Cellular --- Q Fever --- Biology --- Health & Biological Sciences --- Microbiology & Immunology --- Pathogenesis --- Pathogenicity. --- Rickettsia burneti --- Rickettsia diaporica --- Medicine. --- Genetic engineering. --- Infectious diseases. --- Bioinformatics. --- Cell biology. --- Biomedicine. --- Biomedicine general. --- Cell Biology. --- Genetic Engineering. --- Infectious Diseases. --- Computational Biology/Bioinformatics. --- Cell biology --- Cellular biology --- Cells --- Cytologists --- Bio-informatics --- Biological informatics --- Information science --- Computational biology --- Systems biology --- Designed genetic change --- Engineering, Genetic --- Gene splicing --- Genetic intervention --- Genetic surgery --- Genetic recombination --- Biotechnology --- Transgenic organisms --- Clinical sciences --- Medical profession --- Human biology --- Life sciences --- Medical sciences --- Pathology --- Physicians --- Data processing --- Pneumonia --- Rickettsial diseases --- Cytology. --- Emerging infectious diseases. --- Emerging infections --- New infectious diseases --- Re-emerging infectious diseases --- Reemerging infectious diseases --- Communicable diseases --- Health Workforce --- Biomedicine, general.