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Enzymes have interesting applications in our biological system and act as valuable biocatalysts. Their various functions allow enzymes to develop new drugs, detoxifications, and pharmaceutical chemistry. Research Advancements in Pharmaceutical, Nutritional, and Industrial Enzymology provides emerging research on biosynthesis, enzymatic treatments, and bioengineering of medicinal waste. While highlighting issues such as structural implications for drug development and food applications, this publication explores information on various applications of enzymes in pharmaceutical, nutritional, and industrial aspects. This book is a valuable resource for medical professionals, pharmacists, pharmaceutical companies, researchers, academics, and upper-level students seeking current information on developing scientific ideas for new drugs and other enzymatic advancements.
Lipids are biomolecules that constitute a significant amount of biomass in the earth, and plant lipids are rapidly growing in interest due to their roles in improving food technology, medicine, nutrition, and biotechnology. With recent advances in protein chemistry, biochemistry, and enzymology promoting research on lipolytic enzymes, it is important for research to address the mechanisms of such enzymes and their diverse functions. Unique Sequence Signatures in Plant Lipolytic Enzymes: Emerging Research and Opportunities provides innovative insights into the biochemistry of plant lipases and phospholipases as well as their structures and catalytic mechanisms. The book explores the conserved domains and motifs of plant lipolytic enzymes by identifying the main residues involved in the catalysis in the enzymes and the phylogeny of important plant lipolytic enzymes, as well as calculating the evolutionary distance in those enzymes. Organized into six chapters, it is a vital reference source for researchers, chemists, biologists, academicians, practitioners, medical professionals, engineers, and graduate students.
Industrial Enzymology provides state-of-the-art explanations of the uses of enzymes, with an emphasis on their practical applications in 22 industries.
The integration of enzymes in food processing is well known, and dedicated research is continually being pursued to address the global food crisis. This book provides a broad, up-to-date overview of the enzymes used in food technology. It discusses microbial, plant and animal enzymes in the context of their applications in the food sector; process of immobilization; thermal and operational stability; increased product specificity and specific activity; enzyme engineering; implementation of high-throughput techniques; screening of relatively unexplored environments; and development of more efficient enzymes. Offering a comprehensive reference resource on the most progressive field of food technology, this book is of interest to professionals, scientists and academics in the food and biotech industries.
Microbial oxidative enzymes are in need of today and in the future also. Several microbial oxidative enzymes are being used by various sectors like food, agriculture, medicine, detergents, leather, paper, etc. Microbial oxidative enzymes are a natural product, hence, the application of these enzymes is eco-friendly. Oxidative enzymes from microbes like bacteria, and fungi will be helpful in numerous applications including plant-soil health management, and waste treatments. This book will be more informative as well as useful for related industries and end users and will be of great value to those interested in present-day research on oxidation-reduction enzymes. In the coming years, this book will be a game changer for the field of oxidative enzyme development and its applications.
The introduction of emerging contaminants through anthropogenic activities and industrial discharges has raised significant public health concerns worldwide. Various techniques, including bioremediation, have been explored for their effectiveness in removing pollutants from water bodies and effluents. Microorganisms, particularly bacteria and fungi, have emerged as promising candidates for bioremediation due to their abundance, diversity, and ability to thrive under various conditions. Microbes and Enzymes for Water Treatment and Remediation covers a range of topics, from the role of microorganisms and enzymes in efficient pollutant removal to recent advances in microbial immobilization and enzymatic systems for enhanced wastewater treatment. The book provides up-to-date insights into the potential of microbial and enzyme-based processes for wastewater treatment, addressing challenges and limitations while offering alternative methods for effluent treatment and water reclamation. It serves as a valuable resource for understanding the interplay between microbial, biological, and chemical components in the remediation of toxic aqueous pollutants, aiding both researchers and industrialists in advancing environmental stewardship efforts. Offers comprehensive coverage of emerging contaminants and their impact on public health. Provides in-depth exploration of bioremediation techniques utilizing microbial and enzymatic pathways. Addresses the limitations and challenges of the existing microbial and enzyme-based processes for wastewater treatment.
Before now, biological systems could only be expressed in terms of linear relationships, however, as knowledge grows and new techniques of analysis on biological systems is made available, we are realizing the non-linearity of these systems. The concepts and techniques of nonlinear analysis allow for more realistic and accurate models in science. The Future of Pharmaceuticals: A Nonlinear Analysis provides an opportunity to understand the non-linearity of biological systems and its application in various areas of science, primarily pharmaceutical sciences. This book will benefit professionals in pharmaceutical industries, academia, and policy who are interested in an entirely new approach to how we will treat disease in the future. Key Features: Addresses a new approach of nonlinear analysis. Applies a theory of projection to chalk out the future, instead of basing on linear evolution. Provides an opportunity to better understand the non-linearity in biological systems and its applications in various areas of science, primarily pharmaceutical sciences. Helps change the thought process for those looking for answers to their questions which they do not find in the linear relationship approach. Encourages a broader perspective for the creative process of drug development.
New and Future Developments in Microbial Biotechnology and Bioengineering: Microbial Biotechnology in Agro-environmental Sustainability describes, in detail, the various roles of microbial resources in the management of crop diseases and how microbes can be used as a source of income for biomass and bioenergy production. In addition, the book covers microbial inoculants as bio-fertilizers to enhance crop productivity, along with degraded land restoration. Users will find the latest information in the field of microbial biotechnology and its further applications in bio-fertilizers, bio-pesticides, its generation as an alternative source of energy, restoration degraded and marginal lands, the mitigation of global warming gases, and more. - Describes microbial biotechnology and its applications in sustainable agriculture - Provides information on the use of a variety of microbes for crop production - Outlines microbe-based separation techniques for the removal of metal contaminants from soil - Describes the role of microbial agents in the generation of alternative sources of energy - Includes microbial tools and technologies for the restoration of degraded and marginal lands, the mitigation of global warming gases, and the bioremediation of polluted sites
This book will attempt to provide an account of knowledge on biomass available for biomass-based biorefineries. Its focuses on understanding the recalcitrance of biomass and how it limits the overall conversion efficiency. It also gives an insight what are different conventional approaches available for pretreatment and hydrolysis of the biomass. The chapters deals with highlights how enzymes can be a powerhouse and play pioneering roles in biomass valorization. The book will also throw light on how technical aspects of thermochemical conversion strategies such as pyrolysis, gasification, organosolv methods for the generation of value-added materials such as high-quality bio-oil, biochars, and biobased chemicals. These high-value compounds can be put to widespread application in biofuel, biocatalyst, waste bioremediation (heavy metal removal), air purification and effluent treatment applications. The book will provide literature on the limitations of already existing technologies and provide prospects of each technology. This book is of interest to teachers, researchers, bioenergy scientists, capacity builders, and policymakers. Also, the book serves as additional reading material for undergraduate and graduate students of energy studies, chemical engineering, biotechnology, and environmental sciences. National and international energy scientists and policymakers will also find this to be a useful read.
Current Developments in Biotechnology and Bioengineering: Emerging Organic Micropollutants summarizes the current knowledge of emerging organic micropollutants in wastewater and the possibilities of their removal/elimination. This book attempts a thorough and exhaustive discussion on ongoing research and future perspectives on advanced treatment methods and future directions to maintain and protect the environment through microbiological, nanotechnological, application of membrane technology, molecular biological and by policymaking means. In addition, the book includes the latest developments in biotechnology and bioengineering pertaining to various aspects in the field of emerging organic micropollutants, including their sources, health effects and environmental impacts.