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Bacterial Physiology and Biochemistry provides the most current, authoritative, and relevant presentation of bacterial physiology and biochemistry on subject, chemical composition and functional bacterial cell structure, nutrition and growth, the process of cell differentiation, metabolism and the influence of environmental factors. The book helps the reader learn and obtain modern knowledges on bacterial physiology and biochemistry, including chemical composition and functional cell structures, bacterial nutrition and growth, and the processes of cell differentiation, bacterial metabolism and microbial growth in nature, and the effect of environmental factors on bacterial cells. This book is an educational resource designed for use in advanced bachelor's and master's courses in biology, including microbiology, biochemistry and molecular biology. It contains curriculum taught to biology students specializing in microbiology.
Microbial processes are involved in food, chemical, pharmaceutical, cosmetics, energy, and new-material industries. Over the past 2 decades, new or more efficient industrial processes involving microorganisms have been launched, yielding purer, less expensive products or substances not available using classical chemical methods. Microbial Bioprocesses aims to give an overview of established and successful processes and discusses the trends and perspectives in industrial microbiology which, along with tremendous progress in genetic and metabolic engineering in recent years, are once again becoming an area of innovation and emerging technologies. Microbial Bioprocesses covers the unique areas like microbial volatiles (MVOCs), microbial bioinoculant development, bacterial nanocelluloses production, and processes for remediation by fungi and actinobacteria.
New Horizons in Natural Compound Research provides the latest updates in natural compound research (plant, microbes, algae, fungi) and their novel applications in health, agriculture and environment. The book gives recent advances in the extraction of natural compounds, cutting-edge approaches for natural compound purifications, and emerging trends in natural compound screening and identification. In addition, it provides a detailed explanation of the databases and libraries of natural compounds, as well as their significance. Sections focus on research and multidisciplinary practical techniques of natural product research, encouraging young scientists to pursue unique research while also generating strong research ideas. From a future perspective, this book acts as a guide to identify potential areas and new research opportunities in the field of natural products and their service towards human beings, animals and the environment.
Advances in Nano and Biochemistry: Environmental and Biomedical Applications gives insights into this advanced interdisciplinary science that encompasses the principles of physics and physical chemistry for the investigation of various processes and problems in biological systems. The book is a concise culmination of biophysical chemistry knowledge acquired through core concepts and advanced technologies for addressing emerging challenges in environmental and biomedical applications. Sections cover early diagnostic techniques and accurate treatment strategies using bioinspired, sustainable technologies, including nanomaterials, nanoenzymes, biopolymers, electrochemical biomolecule sensors, biocompatible magnetic nanomaterials, quantum dots and hybrid structures, and DNA nanotechnology. Other sections discuss advanced technologies for sensing and remedying environmental pollutants, including but not limited to, photocatalytic oxidations, gum polysaccharides based nanostructured materials, bio-inspired and biocompatible nanomaterials, hydrogel nanocomposites, and contemporary enzymes and nanozymes based¿technologies. Ultimately, the state-of-the-art chapters in this book will empower researchers to combine two complementary elements - chemical analysis use and biomedical applications.
Industrial Applications of Biosurfactants and Microorganisms Green Technology Avenues from Lab to Commercialization covers a variety of current biosurfactant research advancements and progresses, providing insights into the most recent academic advances, major applications, and implementation studies from across the world. The book focuses entirely within the scope of biochemistry and biotechnology research and demonstrates the application of biosurfactants in cell mobility, cell communication, nutrient acquisition, and plant and animal disease. Biosurfactants have antibacterial, antifungal, and antiviral properties, as well as adhesive properties and are used in vaccinations, gene therapy, and the enhancement of microbial biocontrol systems. This book is designed for a broad audience working in the fields of biochemistry, surface science, colloid and interface science, and is an invaluable reference for university libraries and industrial institutions, government and independent institutes, individual research groups, and scientists working in the field of surface science systems.
Myconanotechnology and Application of Nanoparticles in Biology: Fundamental Concepts, Mechanism and Industrial Applications focuses on the emergence of myconanotechnology as a new science for the synthesis of nanoparticles using fungi and considering future applications and challenges. The book demonstrates why mycology should be regarded as a megascience: A subject requiring international collaboration to overcome barriers that need to be confronted in the interests of global security and human well-being. This reference provides a good source of knowledge and guidelines for advanced graduate students and will be of significant interest to scientists working on the basic issues surrounding applications of myconanotechnology.
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.
Carbon-Based Nanomaterials in Biosystems: Biophysical interface at Lower Dimensions provides a thoroughly comprehensive overview of all major aspects of carbon-based nanomaterials, their biophysical response, and biotechnological applications. The book articulates the underlying physics, chemistry, and the basic phenomenon of the broad-range carbon-based nanomaterials (CNMs) with biological systems, particularly the interface analysis. Organized in six sections, it discusses state-of art technological interventions of carbon-based nanomaterials and their application in biomedical sectors in healthcare, food sciences, and technology. The book also highlights the carrying capacity of different CNMs in payload efficiency mechanisms in various biomedical fields. The theranostic efficiency and the safety of various forms of CNMs is assessed. This book will be a helpful resource to those specializing in the areas of nanomedicine, bionanomaterials, and nanotechnology applications.
Bacterial Laccases: Engineering, Immobilization, Heterologous Production, and Industrial Applications provides a list of approaches that upgrades bacterial laccases to industrially relevant enzymes. Providing protocols for enzyme production and downstream processing, and including up-to-date information on bacterial laccases, as well as techniques that can be explored to enhance properties and production levels, this book clarifies research gaps and explains how they can be dealt with. Written for research scholars working on enzymes, this is a valuable tool for industries and policymakers.
Cyanobacteria: Metabolisms to Molecules covers diversity, fundamental metabolisms, crucial metabolities, their synthesis, and bioinformatics topics surrounding cyanobacteria, an organism regarded as the most important organism to sustain life on the planet during ancient times. Cyanobacteria are among the first pioneering communities on various harsh habitat, hydrarch or xerarch, which finally facilitate the emergence of vast communities including higher plants. Being the progenitor of chloroplast, the cyanobacterial metabolisms has always fascinated microbiologists. Additionally, the ability of these prokaryotes to produce valuable and prolific sources of natural products signified their role in an array of industrial sectors. Therefore, in this book, the book's authors accumulate the current knowledge of cyanobacterial metabolisms and molecules as a valuable asset for students, researchers, and biotechnologists.
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