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Pseudomonas volume 5 is intended to collect new information on the genomics of saprophytic soil Pseudomonas, as well as functions related to genomic islands. Pseudomonas are ubiquitous inhabitants and this volume explores life styles in different settings and sheds further insights on the wide metabolic potential of this microbe for the removal of pollutants and production of added-value products. This volume also explores how Pseudomonas responds and reacts to environmental signals, including detection of cell density. This fifth volume covers the following topics: - Genomics -…mehr
Pseudomonas volume 5 is intended to collect new information on the genomics of saprophytic soil Pseudomonas, as well as functions related to genomic islands. Pseudomonas are ubiquitous inhabitants and this volume explores life styles in different settings and sheds further insights on the wide metabolic potential of this microbe for the removal of pollutants and production of added-value products. This volume also explores how Pseudomonas responds and reacts to environmental signals, including detection of cell density.
This fifth volume covers the following topics:
- Genomics - Physiology and metabolism - Databases - Gene regulation - Pathogenesis - Catabolism and biotransformations.
Pseudomonas volume 5 will be of use to researchers working on these bacteria, particularly those studying virulence, genomics, physiology, biotechnology, biotransformations, etc. Advanced students in biology, medicine and agronomy will also find this volume a valuable reference during their studies.
Juan-Luis Ramos, Estación Experimental del Zaidín, Consejo Superior de Investigaciones Científicas, Spain / Alain Filloux, Laboratoire d?Ingénierie des Systèmes Macromoléculaire, IBSM, CNRS, France
Inhaltsangabe
Genomics.- Genomics of Pseudomonas fluorescens Pf-5.- Glycosylation Islands of Pseudomonas Species.- Physiology And Metabolism.- Styrene, an Unpalatable Substrate with Complex Regulatory Networks.- Degradation of o-Xylene by Pseudomonas stutzeri OX1 (Pseudomonas sp. OX1).- Carbazole Metabolism by Pseudomonads.- The Catabolism of Phenylacetic Acid and Other Related Molecules in Pseudomonas putida U.- Role of Membrane Structure During Stress Signalling and Adaptation in Pseudomonas.- Databases.- Towards a Genome-Wide Mutant Library of Pseudomonas putida Strain KT2440.- Gene Regulation.- The Use of Microcalorimetry to Study Regulatory Mechanisms in Pseudomonas.- Cell–Cell Communication: Quorum Sensing and Regulatory Circuits in Pseudomonas aeruginosa.- Modulation of Bacterial Lifestyles via Two-Component Regulatory Networks.- Pathogenesis.- Pseudomonas aeruginosa Internalization by Non-Phagocytic Cells.- Catabolism And Biotransformations.- Histidine Catabolism and Catabolite Regulation.- Synthesis and Degradation of Polyhydroxyalkanoates.- Quorum-Quenching Acylases in Pseudomonas aeruginosa.
Genomics.- Genomics of Pseudomonas fluorescens Pf-5.- Glycosylation Islands of Pseudomonas Species.- Physiology And Metabolism.- Styrene, an Unpalatable Substrate with Complex Regulatory Networks.- Degradation of o-Xylene by Pseudomonas stutzeri OX1 (Pseudomonas sp. OX1).- Carbazole Metabolism by Pseudomonads.- The Catabolism of Phenylacetic Acid and Other Related Molecules in Pseudomonas putida U.- Role of Membrane Structure During Stress Signalling and Adaptation in Pseudomonas.- Databases.- Towards a Genome-Wide Mutant Library of Pseudomonas putida Strain KT2440.- Gene Regulation.- The Use of Microcalorimetry to Study Regulatory Mechanisms in Pseudomonas.- Cell-Cell Communication: Quorum Sensing and Regulatory Circuits in Pseudomonas aeruginosa.- Modulation of Bacterial Lifestyles via Two-Component Regulatory Networks.- Pathogenesis.- Pseudomonas aeruginosa Internalization by Non-Phagocytic Cells.- Catabolism And Biotransformations.- Histidine Catabolism and Catabolite Regulation.- Synthesis and Degradation of Polyhydroxyalkanoates.- Quorum-Quenching Acylases in Pseudomonas aeruginosa.
Genomics.- Genomics of Pseudomonas fluorescens Pf-5.- Glycosylation Islands of Pseudomonas Species.- Physiology And Metabolism.- Styrene, an Unpalatable Substrate with Complex Regulatory Networks.- Degradation of o-Xylene by Pseudomonas stutzeri OX1 (Pseudomonas sp. OX1).- Carbazole Metabolism by Pseudomonads.- The Catabolism of Phenylacetic Acid and Other Related Molecules in Pseudomonas putida U.- Role of Membrane Structure During Stress Signalling and Adaptation in Pseudomonas.- Databases.- Towards a Genome-Wide Mutant Library of Pseudomonas putida Strain KT2440.- Gene Regulation.- The Use of Microcalorimetry to Study Regulatory Mechanisms in Pseudomonas.- Cell–Cell Communication: Quorum Sensing and Regulatory Circuits in Pseudomonas aeruginosa.- Modulation of Bacterial Lifestyles via Two-Component Regulatory Networks.- Pathogenesis.- Pseudomonas aeruginosa Internalization by Non-Phagocytic Cells.- Catabolism And Biotransformations.- Histidine Catabolism and Catabolite Regulation.- Synthesis and Degradation of Polyhydroxyalkanoates.- Quorum-Quenching Acylases in Pseudomonas aeruginosa.
Genomics.- Genomics of Pseudomonas fluorescens Pf-5.- Glycosylation Islands of Pseudomonas Species.- Physiology And Metabolism.- Styrene, an Unpalatable Substrate with Complex Regulatory Networks.- Degradation of o-Xylene by Pseudomonas stutzeri OX1 (Pseudomonas sp. OX1).- Carbazole Metabolism by Pseudomonads.- The Catabolism of Phenylacetic Acid and Other Related Molecules in Pseudomonas putida U.- Role of Membrane Structure During Stress Signalling and Adaptation in Pseudomonas.- Databases.- Towards a Genome-Wide Mutant Library of Pseudomonas putida Strain KT2440.- Gene Regulation.- The Use of Microcalorimetry to Study Regulatory Mechanisms in Pseudomonas.- Cell-Cell Communication: Quorum Sensing and Regulatory Circuits in Pseudomonas aeruginosa.- Modulation of Bacterial Lifestyles via Two-Component Regulatory Networks.- Pathogenesis.- Pseudomonas aeruginosa Internalization by Non-Phagocytic Cells.- Catabolism And Biotransformations.- Histidine Catabolism and Catabolite Regulation.- Synthesis and Degradation of Polyhydroxyalkanoates.- Quorum-Quenching Acylases in Pseudomonas aeruginosa.
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