Bioremediation using microbes is a sustainable technology for biodegradation of target compounds, and an omics approach gives more clarity on these microbial communities. This book provides insights into the complex behavior of microbial communities and identifies enzymes/metabolites and their degradation pathways. It describes the application of microbes and their derivatives for the bioremediation of potentially toxic and novel compounds. It highlights the existing technologies along with industrial practices and real-life case studies. Features: Includes recent research and development in the areas of omics and microbial bioremediation. Covers the broad environmental pollution control approaches such as metagenomics, metabolomics, fluxomics, bioremediation, and biodegradation of industrial wastes. Reviews metagenomics and waste management, and recycling for environmental cleanup. Describes the metagenomic methodologies and best practices, from sample collection to data analysis for taxonomies. Explores various microbial degradation pathways and detoxification mechanisms for organic and inorganic contaminants of wastewater with their gene expression. This book is aimed at graduate students and researchers in environmental engineering, soil remediation, hazardous waste management, environmental modeling, and wastewater treatment.
Bioremediation using microbes is a sustainable technology for biodegradation of target compounds, and an omics approach gives more clarity on these microbial communities. This book provides insights into the complex behavior of microbial communities and identifies enzymes/metabolites and their degradation pathways. It describes the application of microbes and their derivatives for the bioremediation of potentially toxic and novel compounds. It highlights the existing technologies along with industrial practices and real-life case studies. Features: Includes recent research and development in the areas of omics and microbial bioremediation. Covers the broad environmental pollution control approaches such as metagenomics, metabolomics, fluxomics, bioremediation, and biodegradation of industrial wastes. Reviews metagenomics and waste management, and recycling for environmental cleanup. Describes the metagenomic methodologies and best practices, from sample collection to data analysis for taxonomies. Explores various microbial degradation pathways and detoxification mechanisms for organic and inorganic contaminants of wastewater with their gene expression. This book is aimed at graduate students and researchers in environmental engineering, soil remediation, hazardous waste management, environmental modeling, and wastewater treatment.
Focusing on microbial community structure in the field of wastewater treatment, this book highlights structural analyses in relation to changes in physico-chemical parameters. It further covers physiological analyses of microbial communities, enrichment of pure cultures of key species in relation to changes in physico-chemical parameters, and analyses and modelling of consequences of changes in microbial community structure. Based on 16S rRNA gene sequencing, groups of bacteria that perform nitrogen fixation, nitrification, ammonification and other biochemical processes are covered for an entire wastewater treatment plant bioreactor along with temporal dynamics of bacterial communities. Features: Describes the state-of-the-art techniques and the application of omics tools in wastewater treatment reactors (WWTRs). Includes both the theoretical and practical knowledge on the fundamental roles of microorganisms in WWTRs. Discusses environmental microbial community proteomics. Covers relating function and community structure of complex microbial systems using neural networks. Reviews the economics of wastewater treatment and the development of suitable alternatives in terms of performance and cost-effectiveness. This book is aimed at graduates and researchers in biological engineering, biochemical engineering, chemistry, environmental engineering, environmental microbiology, systems ecology and environmental biotechnology.
This new volume of Methods in Enzymology continues the legacy of this premier serial with quality chapters authored by leaders in the field. This volume covers microbial metagenomics, metatranscriptomics, and metaproteomics, and includes chapters on such topics as in-solution FISH for single cell genome preparation, preparation of BAC libraries from marine microbial community DNA, and preparation of microbial community cDNA for metatranscriptomic analysis in marine plankton. Continues the legacy of this premier serial with quality chapters authored by leaders in the field Covers microbial metagenomics, metatranscriptomics, and metaproteomics Contains chapters on such topics as in-solution fluorescence in situ hybridization (FISH) for single cell genome preparation, preparation of BAC libraries from marine microbial community DNA, and preparation of microbial community cDNA for metatranscriptomic analysis in marine plankton
Advances in Eco-friendly and Sustainable Technologies for the Treatment of Textile Wastewater delivers a comprehensive overview of the advancements in a variety of treatment approaches with a major emphasis on bioremediation for the removal and degradation of textile dyes. This book summarizes the latest advancements in textile dyes/effluent treatment technologies and evaluates the major physico-chemical and biological processes that are most popular among textile industrial wastewater treatment plants. The book examines recent advanced treatment options, including photocatalysis with the aid of nanotechnology, as well as advanced oxidation processes, with an emphasis on bioremediation methods. Introduces the global scenario of textile pollution, including country-wide industrial contribution, severity, and ecological consequences Covers both conventional treatment technologies for the removal of synthetic dyes, such as adsorption and coagulation, along with several novel approaches of advanced treatment options, including photocatalysis and advanced oxidation processes Provides an in-depth analysis of bioremedial approaches, including the application of bacterial, fungal/yeast, microalgae and plants, and enzymatic biotransformation for the degradative metabolism of dyes Includes genetic engineering, metagenomics, microbial fuel cells, and biofilm-based immobilization techniques and bioreactors
Focusing on microbial community structure in the field of wastewater treatment, this book highlights structural analyses in relation to changes in physico-chemical parameters. It further covers physiological analyses of microbial communities, enrichment of pure cultures of key species in relation to changes in physico-chemical parameters, and analyses and modelling of consequences of changes in microbial community structure. Based on 16S rRNA gene sequencing, groups of bacteria that perform nitrogen fixation, nitrification, ammonification and other biochemical processes are covered for an entire wastewater treatment plant bioreactor along with temporal dynamics of bacterial communities. Features: Describes the state-of-the-art techniques and the application of omics tools in wastewater treatment reactors (WWTRs). Includes both the theoretical and practical knowledge on the fundamental roles of microorganisms in WWTRs. Discusses environmental microbial community proteomics. Covers relating function and community structure of complex microbial systems using neural networks. Reviews the economics of wastewater treatment and the development of suitable alternatives in terms of performance and cost-effectiveness. This book is aimed at graduates and researchers in biological engineering, biochemical engineering, chemistry, environmental engineering, environmental microbiology, systems ecology and environmental biotechnology.
Emerging Technologies in Applied and Environmental Microbiology describes various problems and solutions that arise in applied and environmental microbiology using scientific technologies. The book summarizes the main omic-based methods currently used to characterize environmental microorganisms, as well as approaches to analyzing and interpreting the bio information generated by experimentally based studies. Sections explore the current understanding of bacterial signaling through examples of communication systems that include signaling in gram-positive and gram-negative bacteria, along with discussions on how microorganisms interact with each other, with other organisms, and with the environment. In addition, this comprehensive resource highlights the importance of various emerging technologies for cleaning up pollution in the environment caused by human activities. Final sections assess the potential application of several existing, applied and environmental microbiological techniques and introduces new and emerging technologies through applied aspects. Describes various problems and solutions that arise in applied and environmental microbiology using scientific technologies Summarizes the main omics-based methods currently used to characterize environmental microorganisms, as well as approaches to analyzing and interpreting the bio information generated by experimentally based studies Explores the current understanding of bacterial signaling through examples of communication systems that include signaling in gram-positive and gram-negative bacteria Shows the presence of all kinds of microbes in the natural environment for the removal of organic pollutants through various emerging technologies
This well-referenced, inquiry-driven text presents an up-to-date and comprehensive understanding of the emerging field of environmental microbiology. Coherent and comprehensive treatment of the dynamic, emerging field of environmental microbiology Emphasis on real-world habitats and selective pressures experienced by naturally occurring microorganisms Case studies and “Science and the Citizen” features relate issues in the public’s mind to the underlying science Unique emphasis on current methodologies and strategies for conducting environmental microbiological research, including methods, logic, and data interpretation
Environmental Management Technologies: Challenges and Opportunities details the environmental problems posed by the various types of toxic organic and inorganic pollutants discharged from both natural and anthropogenic activities and their toxicological effects in environments, humans, animals, and plants. This book also highlights the recent advanced and innovative methods for the effective degradation and bioremediation of organic pollutants, heavy metals, dyes, etc. from the environment for sustainable development. Features of the book: · Provides state-of-the-art information on pollutants, their sources, and deleterious impacts on the environment · Elucidates the recent updates on Emerging Pollutants (EPs) in pharmaceutical waste and personal care products · Discusses the various physico-chemical, biological, and combination treatment systems for sustainable development · Details recent research findings in the area of environmental waste management and their future challenges and opportunities
With the advent of new technologies and acquired knowledge, the number of fields in omics and their applications in diverse areas are rapidly increasing in the postgenomics era. Such emerging fields--including pharmacogenomics, toxicogenomics, regulomics, spliceomics, metagenomics, and environomics--present budding solutions to combat global challenges in biomedicine, agriculture, and the environment. OMICS: Applications in Biomedical, Agricultural, and Environmental Sciences provides valuable insights into the applications of modern omics technologies to real-world problems in the life sciences. Filling a gap in the literature, it offers a broad, multidisciplinary view of current and emerging applications of omics in a single volume. Written by highly experienced active researchers, each chapter describes a particular area of omics and the associated technologies and applications. Topics covered include: Proteomics, epigenomics, and pharmacogenomics Toxicogenomics and the assessment of environmental pollutants Applications of plant metabolomics Nutrigenomics and its therapeutic applications Microalgal omics and omics approaches in biofuel production Next-generation sequencing and omics technology for transgenic plant analysis Omics approaches in crop improvement Engineering dark-operative chlorophyll synthesis Computational regulomics Omics techniques for the analysis of RNA splicing New fields, including metagenomics, glycomics, and miRNA Breast cancer biomarkers for early detection Environomics strategies for environmental sustainability This timely book explores a wide range of omics application areas in the biomedical, agricultural, and environmental sciences. Throughout, it highlights working solutions as well as open problems and future challenges. Demonstrating the diversity of omics, it introduces readers to state-of-the-art developments and trends in omics-driven research.
October 02-03, 2017 Vienna, Austria Key Topics : Cerebral Disorders, Neuronal Disorders, CNS and Neuro Surgery, Neurochemical Transmission, Neuro Oncology and CNS, Cognitive Neurology, Spinal Cord, Signal Transduction and CNS, Genesis of Neurons, Neuro Pharmaceutics, Clinical aspects of CNS, Case Study on CNS, Clinical Trials on CNS, CNS Biomarkers, Perspective in Neuroscience and Neurology, Novel Neurotherapeutics, Central Nervous System Disorders, Neuropsychiatry,
This Volume presents generic protocols for wet experimental and computer-based systems and synthetic biology approaches relevant to the field of hydrocarbon and lipid microbiology. It complements a second Volume that describes protocols for systems and synthetic biology applications. The wet experimental tools presented in this Volume include protocols for the standardisation of transcriptional measurements, application of uracil excision-based DNA editing for, inter alia, multi-gene assembly, the use of fluxomics to optimise “reducing power availability”, and the incorporation of non-canonical amino acids into proteins for optimisation of activities. Phenome-ing microbes, using a combination of RNA-seq and bioinformatic algorithms, is presented, as is an illustration, using methylotrophs as an example, of how the different key omics approaches constitute a pipeline for functional analysis, acquisition of a systems overview, and metabolic optimisation. Complementary computational tools that are presented include protocols for probing the genome architecture of regulatory networks, genome-scale metabolic reconstruction, and bioinformatic approaches to guide metabolic engineering. The Volume also includes an overview of how synthetic biology approaches can be used to improve biocontainment. Hydrocarbon and Lipid Microbiology ProtocolsThere are tens of thousands of structurally different hydrocarbons, hydrocarbon derivatives and lipids, and a wide array of these molecules are required for cells to function. The global hydrocarbon cycle, which is largely driven by microorganisms, has a major impact on our environment and climate. Microbes are responsible for cleaning up the environmental pollution caused by the exploitation of hydrocarbon reservoirs and will also be pivotal in reducing our reliance on fossil fuels by providing biofuels, plastics and industrial chemicals. Gaining an understanding of the relevant functions of the wide range of microbes that produce, consume and modify hydrocarbons and related compounds will be key to responding to these challenges. This comprehensive collection of current and emerging protocols will facilitate acquisition of this understanding and exploitation of useful activities of such microbes.
