» » Microbial Degradation of Organic Compounds (Microbiology)

Download Microbial Degradation of Organic Compounds (Microbiology) fb2

by David T. Gibson

Download Microbial Degradation of Organic Compounds (Microbiology) fb2
Author: David T. Gibson
ISBN: 0824771028
Language: English
Pages: 552 pages
Category: Biological Sciences
Publisher: CRC Press; 1 edition (July 1, 2002)
Rating: 4.2
Formats: rtf docx doc azw
FB2 size: 1656 kb | EPUB size: 1165 kb | DJVU size: 1914 kb
Sub: Math

Microbial degradation of organic matter is expected to be reduced in OMZs, although quantitative evidence is lo. Microbial degradation of pesticides for faster removal of their residues is gaining popularity worldwide View.

Microbial degradation of organic matter is expected to be reduced in OMZs, although quantitative evidence is low. Here, we present heterotrophic bacterial production (³H n), extra.

In environmental microbiology, genome-based global . The increasing amount of bacterial genomic data provides new opportunities for understanding the genetic and molecular bases of the degradation of organic pollutants.

In environmental microbiology, genome-based global studies are increasing the understanding of metabolic and regulatory networks, as well as providing new information on the evolution of degradation pathways and molecular adaptation strategies to changing environmental conditions. 1 Aerobic biodegradation of pollutants.

In: Microbial Degradation of Organic Compounds (Gibson, . e., pp. 1–10, Marcel Dekker, New York. The bacterial degradation of catechol. PubMedGoogle Scholar.

Biodegradation Biotransformation Genetic Engineer. These keywords were added by machine and not by the authors. In: Microbial Degradation of Organic Compounds (Gibson, . Lessons from biodegradation. Jerina and B. Witkop. Arene oxides and the NIH shift: the metabolism, toxicity and carcinogenicity of aromatic compounds.

The book will provide an opportunity for scientists in the areas of microbiology, biochemistry, engineering, food . Chapter 10 Degradation of hazardous organic compounds by rhizosphere microbial communities. 205. Chapter 11 Microbial degradation of styrene.

The book will provide an opportunity for scientists in the areas of microbiology, biochemistry, engineering, food science, biotechnology, and environmental science to obtain a clear understanding of microbial biotransformations of xenobiotics, as well as an interface between industry and the academic world.

The biochemistry of organophosphorus compound degradation by most of the bacteria seems to be identical, in. .

The biochemistry of organophosphorus compound degradation by most of the bacteria seems to be identical, in which a structurally similar enzyme called organophosphate hydrolase or phosphotriesterase catalyzes the first step of the degradation. organophosphate hydrolase encoding gene opd (organophosphate degrading) gene has been isolated from geographically different regions and taxonomically different species.

Microbial degradation of halogenated organic compounds in anoxic estuarine and marine sediments is widely observed ( Table 1 ) and generally proceeds first via reductive dehalogenation. Microbial lipase production often depends on one or more of the following parameters: growth media composition (in particular the enzyme inducing compound), substrate concentration, growth rate, fermentation process design (. batch, fed-batch or continuous operation mode) and interfacial area between lipid and water phase.

Intrinsic microbial degradation is an important process in elimination of contaminants in polluted aquifers, which can be used for the sustainable . In D. T. Gibson (e., Microbial degradation of organic compounds, vol. 13. Dekker, New York, .

Intrinsic microbial degradation is an important process in elimination of contaminants in polluted aquifers, which can be used for the sustainable cleanup of contaminated sites. However, cost-effective remediation strategies such as natural attenuation require a profound knowledge of the microbial degradation processes in the subsurface. Although biodegradation of aromatic hydrocarbons by aerobic and anaerobic bacteria has been investigated in detail in laboratory systems (11, 32), assessment at field sites remains difficult.

Applied and environmental microbiology. Microbial degradation of aro-matic compounds. David T. Gibson, V. Subramanian. Pseudomonas putida PpF1 degrades toluene through cis-toluene dihydrodiol to 3-methylcatechol. The latter compound is metabolized through the well-established meta pathway for catechol degradation.

Degradation of Hazardous organic compounds by rhizosphere microbial communities (. Microbial degradation of styrene (S. Hartmans). The book will provide an opportunity for scientists in the areas of microbiology, biochemistry, engineering, food science, biotechnology, and environmental science to obtain a clear understanding of microbial biotransformations of xenobiotics, as well as an interface between industry and the academic world.