Therapeutic Proteins Against Human Diseases


Book Description

This book compiles updated research about the implications of therapeutic proteins in various human diseases. The initial chapters of the book provide basic information on the therapeutic proteins and discuss techniques for their formulation, production, and analytic approaches for their characterization. The subsequent chapters shed light on therapies based on therapeutic proteins against metabolic disorders, neurological disorders, cancer, autoimmune disorders, and infectious diseases. Importantly, it presents the factors influencing the immunogenicity of therapeutic proteins, including, genetic factors, disease type, and origin of therapeutic protein, dose frequency, administration route, and treatment duration. The book also reviews the strategies for reducing immunogenicity associated with therapeutic proteins, including PEGylation, site specific mutagenesis, exon shuffling, and humanizing of monoclonal antibodies. Further, it presents strategies for improving the typical drawback associated with protein therapeutics including instability and limited penetration through biological barriers. This book covers various computational methods that are commonly used for designing therapeutic proteins and in silico method for predicting and improving in vivo efficacy of the therapeutic molecules. Lastly, the book highlights the recent advances in developing nanosized delivery systems to improve safety and efficacy of protein therapeutics. This book caters to students and researchers of medicinal chemistry, pharmaceutical sciences and therapeutics. It is also useful to clinicians working with therapeutic proteins.




Redox Chemistry and Biology of Thiols


Book Description

Redox Chemistry and Biology of Thiols offers an applied, comprehensive overview of redox chemistry and biology of thiol-dependent processes. Running from basic biology and chemistry of redox phenomena to research methods and highlighting recently identified roles of thiols across cellular and bodily systems, this book draws upon a range of disciplines to illuminate new research directions, new applications of thiol studies, and clinical translation. Sections cover thiol oxidizing species, thiol reactivity and modifications, thioredoxin, glutaredoxin, glutathione, peroxidases, thiol repair enzymes, thiol oxidative signaling, disulfide bond formation, thiol-based redox biosensors, cysteine and hydrogen sulfide metabolism, iron-sulfur cluster biogenesis, thiols in chloroplasts, blood thiols, sugar and polyamine thiols in pathogenic organisms, redox medicine (therapeutic applications of thiols and drug development), as well as methods and bioinformatics tools. - Runs from basic thiol biology and chemistry to applications and clinical translation - Provides methods and protocols that will power new research across biomedicine, cell biology, plant biology, drug development, and protein folding and modulation - Includes chapter contributions from international leaders in the field




Homology Modeling


Book Description

This detailed volume provides state-of-the-art methodologies and reviews of important topics in the field of homology modeling. From homology modeling in the twilight zone and improving accuracy through sequence space analysis to approaches to construct multi-protein complex models, the book explores a wide variety of uses and applications of this valuable technique. Written for the highly successful Methods in Molecular Biology series, the chapters include introductions to their respective topics, lists of the necessary programs, webservers, and databases, step-by-step and readily reproducible protocols, as well as tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Homology Modeling: Methods and Protocols serves as an ideal guide to recent homology modeling procedures, assumptions made, and model quality assessment that will illuminate the black box of homology modeling for novice readers and broaden the knowledge of this methodology for professionals.




Protein Engineering Handbook, Volume 3


Book Description

This introduction collects 17 innovative approaches to engineer novel and improved proteins for diverse applications in biotechnology, chemistry, bioanalytics and medicine. As such, key developments covered in this reference and handbook include de novo enzyme design, cofactor design and metalloenzymes, extremophile proteins, and chemically resistant proteins for industrial processes. The editors integrate academic innovations and industrial applications so as to arrive at a balanced view of this multi-faceted topic. Throughout, the content is chosen to complement and extend the previously published two-volume handbook by the same editors, resulting in a superb overview of this burgeoning field.




Molecular Modeling in Drug Design


Book Description

Since the first attempts at structure-based drug design about four decades ago, molecular modelling techniques for drug design have developed enormously, along with the increasing computational power and structural and biological information of active compounds and potential target molecules. Nowadays, molecular modeling can be considered to be an integral component of the modern drug discovery and development toolbox. Nevertheless, there are still many methodological challenges to be overcome in the application of molecular modeling approaches to drug discovery. The eight original research and five review articles collected in this book provide a snapshot of the state-of-the-art of molecular modeling in drug design, illustrating recent advances and critically discussing important challenges. The topics covered include virtual screening and pharmacophore modelling, chemoinformatic applications of artificial intelligence and machine learning, molecular dynamics simulation and enhanced sampling to investigate contributions of molecular flexibility to drug–receptor interactions, the modeling of drug–receptor solvation, hydrogen bonding and polarization, and drug design against protein–protein interfaces and membrane protein receptors.




Computer-Aided Antibody Design


Book Description

This volume details state-of-the- art methods on computer-aided antibody design. Chapters guide readers through information on antibody sequences and structures, modeling antibody structures and dynamics, prediction and optimization of biological and biophysical properties of antibodies, prediction of antibody-antigen interactions, and computer-aided antibody affinity maturation and beyond. Written in the format of the highly successful Methods in Molecular Biology series, each chapter includes an introduction to the topic, lists necessary materials and reagents, includes tips on troubleshooting and known pitfalls, and step-by-step, readily reproducible protocols. Authoritative and cutting-edge, Computer-Aided Antibody Design aims to be a useful and practical guide to new researchers and experts looking to expand their knowledge. Chapter 2 is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.




Handbook of Computational Intelligence in Manufacturing and Production Management


Book Description

During the last two decades, computer and information technologies have forced great changes in the ways businesses manage operations in meeting the desired quality of products and services, customer demands, competition, and other challenges. The Handbook of Computational Intelligence in Manufacturing and Production Management focuses on new developments in computational intelligence in areas such as forecasting, scheduling, production planning, inventory control, and aggregate planning, among others. This comprehensive collection of research provides cutting-edge knowledge on information technology developments for both researchers and professionals in fields such as operations and production management, Web engineering, artificial intelligence, and information resources management.




Antibodies for Infectious Diseases


Book Description

State-of-the-art reviews covering major aspects of antibodies and intervention against infectious diseases The connection between antibodies and infectious diseases has spawned entire related fields of study. Antibodies for Infectious Diseases presents perspectives from leading research scientists and summarizes the amazing progress in this area into a single definitive source. Providing a broad survey of the most important aspects of the field of antibodies for infectious diseases, this book presents general features pertaining to structure, function, isotype, and the role of complement in antibody function examines the role of antibodies in antimicrobial immunity with specific targets details new methods for expression of monoclonal antibodies, in plants or by transfer of antibody genes for in vivo expression in treated subjects Antibodies for Infectious Diseases is a comprehensive reference for researchers, pharmaceutical developers, and health care professionals on the status of the development of antibody-based therapies for treating infectious diseases. It is also useful as supplemental reading for upper level life sciences students. If you are looking for online access to the latest clinical microbiology content, please visit www.wiley.com/learn/clinmicronow.




Protein-based Therapeutics


Book Description

This book provides an overview of the essential characteristics and clinical applications of therapeutic proteins against human diseases, including cancers, immune disorders, infections, and other diseases. It presents the latest advancements in protein engineering techniques for producing desirable therapeutic proteins. The book also covers the strategies used to formulate and deliver systemic therapeutic proteins, approved protein therapeutics and their targets, and pharmacogenetic biomarkers. Further, it discusses challenges associated with the clinical implications of therapeutic proteins, including safety, immunogenicity, protein stability, degradation, and efficacy. It illustrates the development of biosimilar antibodies, optimization strategies for producing biobetter antibodies, and presents fundamental concepts about biosuperior therapeutics. Lastly, it includes a discussion about protein-based vaccines against bacterial and viral infections.