Biodegradative Bacteria (eBook)

How Bacteria Degrade, Survive, Adapt, and Evolve
eBook Download: PDF
2013 | 2014
VIII, 358 Seiten
Springer Japan (Verlag)
978-4-431-54520-0 (ISBN)

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Biodegradative Bacteria highlights the novel nature of bacterial cell functions in the field of biodegradation by putting them into three parts: (1) Genetic and genomic systems, (2) Degradative enzyme systems, and (3) Bacterial behavior in natural environmental systems. The first part of the book includes cell functions as degradative machinery, genome systems for effective degradation, and the evolution of degradative systems by mobile genetic elements. The second part deals with the structure, function, evolution, diversity, and application of degradative and related enzymes. The third part presents cell or genomic behaviors of biodegradative bacteria in natural ecosystems.

Bacterial metabolic capacity, which plays an important role in the global material cycle, contributes significantly to the buffering capacity for the huge and unintended release of various chemicals. Recently, however, the prosperity and globalization of material civilization has led not only to severe local contamination by hazardous chemicals, but also to continuous increment of contaminant concentrations worldwide. To solve such urgent global issues, bacterial functions that are involved in biodegradation of hazardous chemicals have been analyzed. The term 'biodegradative bacteria' refers to those bacteria that have the ability to degrade such xenobiotic (man-made) and/or hazardous chemicals. Analyses of biodegradative bacteria include diverse areas of study, such as genetics, enzymology, genomics, cell physiology, ecology, and evolutionary biology. In other words, the targets investigated in research on biodegradative bacteria include single molecules, single cell systems, bacterial consortia (interaction with surrounding microorganisms), and interaction with surrounding biotic and abiotic materials. Such complexity makes the research on biodegradative bacteria difficult but quite interesting.


Biodegradative Bacteria highlights the novel nature of bacterial cell functions in the field of biodegradation by putting them into three parts: (1) Genetic and genomic systems, (2) Degradative enzyme systems, and (3) Bacterial behavior in natural environmental systems. The first part of the book includes cell functions as degradative machinery, genome systems for effective degradation, and the evolution of degradative systems by mobile genetic elements. The second part deals with the structure, function, evolution, diversity, and application of degradative and related enzymes. The third part presents cell or genomic behaviors of biodegradative bacteria in natural ecosystems.Bacterial metabolic capacity, which plays an important role in the global material cycle, contributes significantly to the buffering capacity for the huge and unintended release of various chemicals. Recently, however, the prosperity and globalization of material civilization has led not only to severe local contamination by hazardous chemicals, but also to continuous increment of contaminant concentrations worldwide. To solve such urgent global issues, bacterial functions that are involved in biodegradation of hazardous chemicals have been analyzed. The term "e;biodegradative bacteria"e; refers to those bacteria that have the ability to degrade such xenobiotic (man-made) and/or hazardous chemicals. Analyses of biodegradative bacteria include diverse areas of study, such as genetics, enzymology, genomics, cell physiology, ecology, and evolutionary biology. In other words, the targets investigated in research on biodegradative bacteria include single molecules, single cell systems, bacterial consortia (interaction with surrounding microorganisms), and interaction with surrounding biotic and abiotic materials. Such complexity makes the research on biodegradative bacteria difficult but quite interesting.

Part 1 Genetic and genomic systems1.      Rhodococcus multiple-enzyme and parallel-degradation system for aromatic compounds2.      Appearance and evolution of gamma-hexachlorocyclohexane-degrading bacteria3.      Diversity of 2,4-dichlorophenoxyacetic acid (2,4-D)-degradative genes and degrading bacteria4.      Genetic system of organohalide-respiring bacteria5.      Mobile catabolic genetic elements in pseudomonads6.      Adaptation to xenobiotics and toxic compounds by Cupriavidus and Ralstonia with special reference to Cupriavidus metallidurans CH34 and mobile genetic elements7.      Conjugative elements: Host chromosome function modifiers Part 2 Enzyme systems8.      On-line monitoring of biodegradation processes using enzymatic biosensors9.      Structure and function of aromatic-ring hydroxylating dioxygenase system10.   The protocatechuate 4,5-cleavage pathway: Overview and new findings11.   Toluene tolerance systems in Pseudomonas12.   Diversity and evolution of aromatic degradation pathway enzymes in an activated sludge Part 3 Bacterial behavior in natural environmental systems13.   Syntrophic interactions in biodegradative consortia14.   Strategies to reveal genomic function in natural soil systems15.   Monitoring microbial community dynamics to evaluate bioremediation16.   Selective stimulation of aromatic compound degradation by the indigenous marine bacterium Cycloclasticus for bioremediation of oil spills in the marine environment17.   Biofilm as a multicellular bacterial systemIndex

Erscheint lt. Verlag 1.11.2013
Zusatzinfo VIII, 358 p. 79 illus., 22 illus. in color.
Verlagsort Tokyo
Sprache englisch
Themenwelt Naturwissenschaften Biologie Mikrobiologie / Immunologie
Naturwissenschaften Biologie Ökologie / Naturschutz
Technik
Schlagworte biodegradation • bioremediation • Ecology • Enzyme • Genome
ISBN-10 4-431-54520-4 / 4431545204
ISBN-13 978-4-431-54520-0 / 9784431545200
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