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New and Future Developments in Microbial Biotechnology and Bioengineering: Microbial Biofilms is divided into three sections: microbial adhesion/biofilms in medical settings, microbial adhesion/biofilms in agriculture, and microbial adhesion/biofilm in the environment and industry. Chapters cover adhesion and biofilm formation by pathogenic microbes on tissue and on indwelling medical devices, including sections on human infections, microbial communication during biofilm mode of growth, host defense and antimicrobial resistance, and more. Other sections cover the biofilms of agriculturally important and environmental friendly microbes, including biofilm formation on plants, in soil, and in aquatic environments. Finally, the latest scientific research on microbial adhesion and biofilm formation in the environment and in industry is covered. - Provides an overview on the growth, structure, cell-to-cell interactions, and control/dispersal of bacterial and fungal of in vitro and in vivo biofilms - Presents an overview on the microbial adhesion, biofilm formation and structures of single-species and multi-species biofilms on human tissues/medical devices, agriculture, environment and chemical industries - Includes chapters on microbial biofilms of pathogenic microbes on human tissues and in medical indwelling devices - Covers factors affecting microbial biofilm, adhesion and formation
New and Future Developments in Microbial Biotechnology and Bioengineering: Trends of Microbial Biotechnology for Sustainable Agriculture and Biomedicine Systems: Diversity and Functional Perspectives describes how specific techniques can be used to generalize the metabolism of bacteria that optimize biologic improvement strategies and bio-transport processes. Microbial biotechnology focuses on microbes of agricultural, environmental, industrial, and clinical significance. This volume discusses several methods based on molecular genetics, systems, and biology of synthetic, genomic, proteomic, and metagenomics. Recent developments in our understanding of the role of microbes in sustainable agriculture and biotechnology have created a highly potential research area. The soil and plant microbiomes have a significant role in plant growth promotion, crop yield, soil health and fertility for sustainable developments. The microbes provide nutrients and stimulate plant growth through different mechanisms, including solubilization of phosphorus, potassium, and zinc; biological nitrogen fixation; production of siderophore, ammonia, HCN and other secondary metabolites which are antagonistic against pathogenic microbes. This new book provides an indispensable reference source for engineers/bioengineers, biochemists, biotechnologists, microbiologists, agrochemists, and researchers who want to know about the unique properties of this microbe and explore its sustainable agriculture future applications. - Introduces the principles of microbial biotechnology and its application in plant growth and soil health for sustainable agriculture - Explores various plant microbiomes and their beneficial impact on plant growth for crop improvement - Explains the mechanisms of plant-microbe interaction and plant growth promotion - Includes current applications of microbial consortium for enhance production of crop in eco-friendly manners
Microbial Biofilms: Challenges and Advances in Metabolomic Study is a volume in the Advances in Biotechnology and Bioengineering Series. The volume covers the metabolomic characteristics of bacterial biofilms and examines the techniques used in the analysis of the metabolomics of the biofilm, its formation, and related infections. The book includes the metabolomics study of various types of biofilms and details new strategies in targeting metabolic pathways for inhibiting the biofilm. The book also describes various types of metabolomics studies like metabolomics of oral biofilm and metabolomics of biofilm by nosocomial microbes. It also points out the recent advancements on various aspects of metabolomics studies pertaining to biofilms, related infections, their pathogenesis, and present-day treatment strategies. Microbial Biofilms: Challenges and Advances in Metabolomic Study is a helpful resource to scientists and researchers engaged in biofilm studies, precisely on the metabolomic changes at molecular level occurring in the participating microorganisms. It is also fascinating and thought provoking for the clinicians and health professionals actively involved in the treatment of biofilm mediated chronic infections, since it depicts the pathogenic consequences of the small molecular interactions of the metabolites in biofilm. - Discusses recent trends in biofilms research - Details newer strategies in treating the biofilm by targeting metabolic pathways - Covers chronic infections caused by biofilm and their metabolomics studies - Examines various analytical aspects on the metabolomics study of biofilm as well as how metabolomics regulate the formation of the biofilm - Incorporates relevant case studies
This book covers various aspects of microbial biotechnology to produce bioenergy. It focuses on production of biofuels from plant and microbial biomass including agri-food residues and other wastes. It educates readers about various biomass resources, major aspects of production of renewable energy and fuels based on biochemical conversion routes. There is special focus on the microbial system and biotechnological processes as well as process optimization and industrial scale-up. The book brings together current challenges and potential solutions to enhance biomass to biofuel bioconversion. It is relevant for researchers, academicians, students as well as industry professionals working on biomass-based biorefineries.
Microbial biofilms: Role in Human Infectious Diseases focuses on new and emerging concepts in microbial biofilm research, such as the mechanisms of biofilm formation, biofilm-induced pathogenesis, biofilm detection/and diagnosis, gene exchange within biofilms, strategies to control microbial biofilms and the burden of biofilm associated infections. In addition, it highlights the various anti-biofilm strategies such as surface coating, signal quenching, novel compounds that can be translated to curb biofilm-associated infections and the escalation of antimicrobial resistance determinants. Microbial biofilms can be a serious problem in medical settings as they are associated with significant mortality and morbidity. Infection related to biofilms increases recovery time and the cost of disease management. Biofilms are resistant to known antibiotics and human defense mechanism. In addition, due to close proximity of microbes within biofilms, increase genetic transformation has been detected results in increases frequency of antibiotic gene spread. With the advancement in science and technology, novel strategies have been proposed to combat the impact of biofilms on human health. - Fulfills the knowledge gap in biofilm study - Focuses on new and emerging concepts in microbial biofilm research - Highlights the various anti-biofilm strategies - Provides concise, thorough and up-to-date information about the important role of microbial biofilms in human diseases
This book provides a broad range of applications and recent advances in the search for biofilm materials in nature. It also explains the future implications for biofilms in the areas of advanced molecular genetics, pharmaceuticals, pharmacology, and toxicology. This book is comprised of 20 chapters from leading experts in the field and it examines immunology and microbiological studies derived from biofilms as well as explores environmental, agricultural, and chemical impacts on biofilms. It is divided into five subdivisions: biofilms and its complications, biofilm infections in human body, detection of biofilm-forming pathogens, antibiofilm chemotherapy, and biofilms production tools in aquaculture. This book may be used as a text or reference for everyone interested in microbial biofilms and their current applications. It is also highly recommended for environmental microbiologists, medical microbiologists, bioremediation experts, and microbiologists working in biocorrosion, biofouling, biodegradation, water microbiology, quorum sensing, and many other related areas. Scientists in academia, research laboratories, and industry will also find it of interest. This book includes chapter homework problems and case studies. Powerpoints are also available for adopting instructors. Discusses and clarifies the resource of isolation and chemical properties from biofilms Discusses the latest pharmaceutical, pharmacological, and medicinal approaches toward the treatment of chronic and uncured diseases, such as Alzheimer’s osteoporotic, sexual dysfunction, sleep sickness, allergy treatment, asthma, hair loss, AIDS, hypertension, antiaging, etc. Examines immunology and microbiological studies derived from biofilms Explores environmental, agricultural, and chemical impacts on biofilms. Dr. Bakrudeen Ali Ahmed Abdul is an Associate Professor, the Head of the Department of Biochemistry and Dean of the School of Life Sciences, Centre for Research and Development (CRD), PRIST Deemed University, Vallam, Thanjavur, Tamil Nadu, India. His research areas include the application of plant biochemistry, bioactive compound production, biotechnological methods, development of pharmaceutical products and pharmacological studies.
Microbes and Microbial Biotechnology for Green Remediation provides a comprehensive account of sustainable microbial treatment technologies. The research presented highlights the significantly important microbial species involved in remediation, the mechanisms of remediation by various microbes, and suggestions for future improvement of bioremediation technology. The introduction of contaminants, due to rapid urbanization and anthropogenic activities, into the environment causes unsteadiness and distress to the physicochemical systems, including living organisms. Hence, there is an immediate global demand for the diminution of such contaminants and xenobiotics which can otherwise adversely affect the living organisms. Over time, microbial remediation processes have been accelerated to produce better, eco-friendlier, and more biodegradable products for complete dissemination of these xenobiotic compounds. The advancements in microbiology and biotechnology lead to the launch of microbial biotechnology as a separate area of research and contributed dramatically to the development of the areas such as agriculture, environment, biopharmaceutics, and fermented foods. Microbes stand as an imperative, efficient, green, and economical alternative to conventional treatment technologies. The proposed book provides cost-effective and sustainable alternatives. This book serves as a reference for graduate and postgraduate students in environmental biotechnology and microbiology as well as researchers and scientists working in the laboratories and industries involved in research related to microbiology, environmental biotechnology, and allied research. - Discusses important microbial activities, such as biofertilizer, biocontrol, biosorption, biochar, biofilm, biodegradation, bioremediation, bioclogging, and quorum sensing - Covers all the advanced microbial bioremediation techniques which are finding their way from the laboratory to the field for revival of the degraded agro-ecosystems - Examines the role of bacteria, fungi, microalgae, Bacillus sp., Prosopis juliflora, Deinococcus radiodurans, Pseudomonas, methanotrophs, siderophores, and PGPRs as the biocontrol and green remediator agents for soil sustainability
Biotechnology of Emerging Microbes: Prospects for Agriculture and Environment provides the latest developments of leading biotechnologists and bioengineers. The book covers various aspects of microbes mediated rhizosphere, biosphere, environmental, and ecosystem biotechnology, and focuses on the restoration and management of the rhizosphere, the biosphere, and the ecosystem with microbes for a sustainable future. It is designed to address various technical and application details of microorganisms and their products in biotechnology and bioengineering approaches. Users will find up-to-date knowledge that is beneficial to beginners, researchers, students, scientists, engineers, and industry stakeholders who can support the management of ecosystems through the use of microbes. Planet Earth is undergoing an accelerated process of change associated with a wide range of anthropogenic phenomena. The future of these changes is uncertain, but there is general agreement that this negative development might be detrimental to our own survival. Although different environmental engineering strategies have been developed, none of them seem to address carbon dioxide accumulation, biosphere, and ecosystem safety. The rapidly increasing potential for the development of living systems through the biotechnology and bioengineering of microbes is a sustainable alternative to address safety issues. - Addresses various technical and application details of microorganisms and their products for biotechnology and bioengineering approaches - Brings together the ideas and latest developments of leading biotechnologists and bioengineers - Covers various aspects of microbes mediated rhizosphere, biosphere, environmental, and ecosystem biotechnology