Developments and Applications of Enzymes from Thermophilic Microorganisms extensively presents the industrial application of thermophilic/hyperthermophilic enzymes. The book brings thorough and in-depth coverage on the role of these enzymes in a broad range of industries, focusing on present scenarios of these enzymes in biofuel industries, including recent advancements. The use of thermophilic enzymes in 2G biorefineries may enable the whole production process to take place at high temperatures, allowing increased reaction rate and reduced costs. Researchers in biochemistry, microbiology, microbial technology, biotechnology, molecular biology and bioresource technology will benefit from the new insights given on potential applications of hyperthermophiles. Hyperthermophilic enzymes, many of which survive at temperatures at or above 100C, contain novel macromolecules and metabolic systems which represent a vast resource for fundamental molecular and physiological studies, and for potential exploitation in biotechnology.

Biotechnology of Microbial Enzymes: Production, Biocatalysis, and Industrial Applications, Second Edition provides a complete survey of the latest innovations on microbial enzymes, highlighting biotechnological advances in their production and purification along with information on successful applications as biocatalysts in several chemical and industrial processes under mild and green conditions. The application of recombinant DNA technology within industrial fermentation and the production of enzymes over the last three decades have produced a host of useful chemical and biochemical substances. The power of these technologies results in novel transformations, better enzymes, a wide variety of applications, and the unprecedented development of biocatalysts through the ongoing integration of molecular biology methodology, all of which is covered insightfully and in-depth within the book. This fully revised, second edition is updated to address the latest research developments and applications in the field, from microbial enzymes recently applied in drug discovery to penicillin biosynthetic enzymes and penicillin acylase, xylose reductase, and microbial enzymes used in antitubercular drug design. Across the chapters, the use of microbial enzymes in sustainable development and production processes is fully considered, with recent successes and ongoing challenges highlighted.

Polysaccharide Degrading Biocatalysts provides a thorough grounding in these biocatalytic processes and their growing role in the depolymerization of polysaccharides, thus empowering researchers to discover and develop new enzyme-based approaches across pharmaceuticals, fuels and food engineering. Here, over a dozen leading experts offer a close examination of structural polysaccharides, genetic modification of polysaccharides, polysaccharide degradation routes, pretreatments for enzymatic hydrolysis, hemicellulose degrading enzymes, biomass valorization processes, oligosaccharide production, and enzyme immobilization for hydrolysis of polysaccharides, among other topics and related research protocols. Final sections consider perspectives and challenges in an evolving carbohydrate-based economy.

Structure and Intrinsic Disorder in Enzymology offers a direct, yet comprehensive presentation of the fundamental concepts, characteristics and functions of intrinsically disordered enzymes, along with valuable notes and technical insights powering new research in this emerging field. Here, more than twenty international experts examine protein flexibility and cryo-enzymology, hierarchies of intrinsic disorder, methods for measurement of disorder in proteins, bioinformatics tools for predictions of structure, disorder and function, protein promiscuity, protein moonlighting, globular enzymes, intrinsic disorder and allosteric regulation, protein crowding, intrinsic disorder in post-translational, and much more. Chapters also review methods for study, as well as evolving technology to support new research across academic, industrial and pharmaceutical labs.

Biocatalysis in Green Solvents offers a pragmatic overview and instruction in biocatalysis and enzymology of green solvents for sustainable industries and medicine, running from concept to application. Here, international experts in the field discuss structure-function relationships of enzymes in ionic liquids (ILs) and examine how enzymes act as selective catalysts for fine biochemical synthesis in non-aqueous environments. Several integral green biochemical processes of biocatalytic transformation and pure product separation are described in detail. Application focused chapters discuss the role of biocatalysis in creating and implementing deep eutectic solvents, biomass derived solvents, sub and supercritical fluids, carbon dioxide biphasic systems, and enzymatic membrane reactors, as well as applying these biocatalytic processes in drug discovery and production.

Nanoarmoring of Enzymes: Rational Design of Polymer-Wrapped Enzymes, Volume 590 is the latest volume in the Methods in Enzymology series that focuses on nanoarmoring of enzymes and the rational design of polymer-wrapped enzymes. This new volume presents the most updated information on a variety of topics, including specific chapters on Encapsulating Proteins in Nanoparticles: Batch by Batch or One by One, Enzyme Adsorption on Nanoparticle Surfaces Probed by Highly Sensitive Second Harmonic Light Scattering, Armoring Enzymes by Metal-Organic Frameworks by the Coprecipitation Method, and Enzyme Armoring by an Organosilica Layer: Synthesis and Characterization of Hybrid Organic/Inorganic Nanobiocatalysts. Users will find this to be an all-encompassing resource on nanoarmoring in enzymes.

Marine Enzymes Biotechnology: Production and Industrial Applications, Part III, Application of Marine Enzymes provides a huge treasure trove of information on marine organisms and how they are not only good candidates for enzyme production, but also a rich source of biological molecules that are of potential interest to various industries. Marine enzymes such as amylases, carboxymethylcellulases, proteases, chitinases, keratinases, xylanases, agarases, lipases, peroxidase, and tyrosinases are widely used in the industry for the manufacture of pharmaceuticals, foods, beverages, and confectioneries, as well as in textile and leather processing and waste water treatment. The majority of the enzymes used in the industry are of microbial origin because microbial enzymes are relatively more stable than the corresponding enzymes derived from plants and animals.

Enzymology at the Membrane Interface: Intramembrane Proteases, Volume 584, the latest release in the Methods in Enzymology series, covers a subset of enzymes that work in the environment of the biological cell membrane. This field, called interfacial enzymology, involves a special series of experimental approaches for the isolation and study of these enzymes.

Microbial Xylanolytic Enzymes describes the enzyme structure and its interaction with plant cell walls, the properties and production of different enzymes and their applications, and the knowledge gathered on the hydrolysis mechanism of hemicellulose. The knowledge gathered about the hydrolysis mechanism of the hemicelluloses, especially xylans, has greatly promoted the rapid application of these enzymes in new areas. In recent years, there has been a spurt of interest in xylan degrading enzymes due to their applications in several industrial processes, including paper and pulp industries, food and feed industries, biofuel industry, textile industry, chemical and pharmaceutical industry, brewing industry, and more. Xylan is the principal type of hemicellulose. An enzymatic complex is responsible for the hydrolysis of xylan, but the main enzymes involved are enzymes produced by fungi, bacteria, yeast, algae, protozoans, and more.

Insights into Enzyme Mechanisms and Functions from Experimental and Computational Methods is the latest volume in the popular Advances in Protein Chemistry and Structural Biology series, an essential resource for protein chemists. Each volume brings forth new information about protocols and analysis of proteins, with each thematically organized volume guest edited by leading experts in a broad range of protein-related topics.

Single-Molecule Enzymology, Part A, the latest volume in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. This volume covers research methods in single-molecule enzymology, and includes sections on such topics as force-based and hybrid approaches, fluorescence, high-throughput sm enzymology, nanopores, and tethered particle motion.

Enzymes of Epigenetics: Part B, one of two new volumes in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. This volume covers research methods that are employed in the study of epigenetic regulation, including structural, biochemical, molecular, biological, cellular, computational, and systems approaches. Topics include chromatin structure and histones, posttranslational histone modification enzymes and complexes, histone modification binders, DNA modifications and nucleic acid regulators, epigenetic technologies, and small molecule epigenetic regulators and biological connections.

Mass Spectrometry: Techniques for the Structural Characterization of Glycans presents new methods for conducting detailed carbohydrate qualitative analysis-arming analytical chemists, pharmaceutical scientists, and food scientists with a quick reference that will allow them to determine the structures of carbohydrates molecules. As there is a need in the scientific community for content specific to structural determination and analysis of new glycoprotein drug, and because structure-activity analysis requires a structural determination of the N- and O-linked oligosaccharides linked to glycol-proteins, this book provides the relevant research that are necessary for advances and new outcomes in this area of study.

Rational Design of Enzyme-Nanomaterials, the new volume in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. This volume covers research methods in rational design of enzyme-nanomaterials, and includes sections on such topics as conjugation of enzymes and dextran-aldehyde polymers, improved activity of enzymes bound to titanate nanosheet, nano-layered 'stable-on-the-table' biocatalysts and nanoparticle-based enzyme sensors.

Marine Enzymes Biotechnology: Production and Industrial Applications, Part I, Production of Enzymes provides a huge treasure trove of information on marine organisms. Nowadays, marine organisms are good candidates for enzymes production and have been recognized as a rich source of biological molecules that are of potential interest to various industries. Marine enzymes such as amylases, carboxymethylcellulases, proteases, chitinases, keratinases, xylanases, agarases, lipases, peroxidase and tyrosinases are widely used in the industry for the manufacture of pharmaceuticals, foods, beverages, and confectioneries, as well as in textile and leather processing, and in waste water treatment. The majority of the enzymes used in the industry are of microbial origin because microbial enzymes are relatively more stable than the corresponding enzymes derived from plants and animals.

Klotho is the latest edition of a series first published in 1943 on Vitamins and Hormones and the longest-running serial published by Academic Press. It provides up-to-date information on vitamin and hormone research spanning data from molecular biology to the clinic, with volumes focusing on a single molecule or on a disease that is related to vitamins or hormones that are interpreted broadly so that related substances, such as transmitters, cytokines, growth factors, and others can be reviewed.

Computational Approaches for Studying Enzyme Mechanism Part A, is the first of two volumes in the Methods in Enzymology series, focusses on computational approaches for studying enzyme mechanism. The serial achieves the critically acclaimed gold standard of laboratory practices and remains one of the most highly respected publications in the molecular biosciences. Each volume is eagerly awaited, frequently consulted, and praised by researchers and reviewers alike. Now with over 550 volumes, the series remains a prominent and essential publication for researchers in all fields of life sciences and biotechnology, including biochemistry, chemical biology, microbiology, synthetic biology, cancer research, and genetics to name a few.

Computational Approaches for Studying Enzyme Mechanism, Part B is the first of two volumes in the Methods in Enzymology series that focuses on computational approaches for studying enzyme mechanism. The serial achieves the critically acclaimed gold standard of laboratory practices and remains one of the most highly respected publications in the molecular biosciences. Each volume is eagerly awaited, frequently consulted, and praised by researchers and reviewers alike. Now with over 550 volumes, the series remains a prominent and essential publication for researchers in all fields of the life sciences and biotechnology, including biochemistry, chemical biology, microbiology, synthetic biology, cancer research, genetics, and other fields of study.

Peptide and Peptidomimetic Therapeutics: From Bench to Beside offers applied, evidence-based instruction on developing and applying peptide therapeutics in disease treatment, driving drug discovery, and improving patient care. Here, researchers, clinicians and students will find tools to harness the full power of peptides and peptidomimetics and improve bioavailability, stability, efficiency and selectivity of new therapeutics and their application in treatment plans. More than 20 leaders in the field share their approaches for identifying and advancing peptide and peptidomimetic therapeutics. Topics examined run from "bench to bedside," beginning with fundamental peptide science, protein-protein interactions and peptide synthesis. Later chapters examine modes for peptide drug delivery, including cell penetration peptide and peptidomimetic delivery, as well as the targeting of specific disease types, peptide therapeutics as applied to infectious disease, cancer, metabolic disorders, neurodegenerative disorders, and skin disorders, and antiparasitic and immunosuppressive peptidomimetics.

Enzymes of Epigenetics, one of two new volumes in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. This volume covers research methods that are employed to study epigenetic regulation and includes structural, biochemical, molecular, biological, cellular, computational, and systems approaches. Topics include chromatin structure and histones, posttranslational histone modification enzymes and complexes, histone modification binders, DNA modifications and nucleic acid regulators, epigenetic technologies and small molecule epigenetic regulators, and biological connections

Isotope Labeling of Biomolecules: Applications, the latest in the Methods in Enzymology series, focuses on stable isotope labeling methods and applications for biomolecules. This practical guide to biomolecular labeling looks at new techniques that are becoming widely used.

This volume of The Enzymes summarizes the most important discoveries associated with a group of enzymes that play an important role in normal biological processes as presented and discussed by leaders authorities in the field.

Metabolomics Perspectives: From Theory to Practical Application is an expertly written volume, which provides a thorough description of the current state-of-the-art in the metabolomics field. The philosophy behind the book is to guide the reader in a step-by-step exploration of metabolomics experiments, ranging from sample preparation to data extraction, analysis and interpretation, and to discuss the main current applications and future perspectives of this emerging science. Armed with critical insights, coupled with a clear writing, the book consists of three main sections. The first one introduces the pivotal theoretical fundamentals and provides a comprehensive overview of the "wet" laboratory workflow, including protocol instructions and a detailed description of experimental methods and analytical techniques. The second section covers a wide range of topics in the context of data analysis, including guidance in exploratory analysis, supervised and unsupervised machine learning approaches and validation and optimization methods. In addition to the several examples reported in the text, the book features an R package, specifically designed to perform all the described algorithms, which is hosted on a companion website (www.metabolomicsperspectives.com) together with several sets of available metabolomic data. Finally, an extensive dissertation describes the latest advances and the major fields of interest for metabolomics applications, highlighting their crucial potentials for future biomedical research. Thus, this book represents a must-read for both experienced researchers, interested in metabolomics, and newcomers to the field.

Isotope Labeling of Biomolecules - Labeling Methods, the latest volume of the Methods in Enzymology series contains comprehensive information on stable isotope labeling methods and applications for biomolecules.

Metabolic Analysis Using Stable Isotopes, the newest volume in Methods in Enzymology continues the legacy of this premier serial with quality chapters authored by leaders in the field. This volume covers research methods in metabolic analysis using stable isotopes.