Download Free Biomacromolecules Book in PDF and EPUB Free Download. You can read online Biomacromolecules and write the review.

This book provides an integrated treatment of the structure and function of nucleic acids, proteins, and glycans, including thorough coverage of relevant computational biochemistry. The text begins with an introduction to the biomacromolecules, followed by discussion of methods of isolation and purification, physiochemical and biochemical properties, and structural characteristics. The next section of the book deals with sequence analysis, analysis of conformation using spectroscopy, chemical synthesis, and computational approaches. The following chapters discuss biomolecular interactions, enzyme action, gene transmission, signal transduction, and biomacromolecular informatics. The author concludes with presenting the latest findings in genomics, proteomics, glycomics, and biomacromolecular evolution. This text is an invaluable resource for research professionals wishing to move into genomics, proteomics, and glycomics research. It is also useful for students in biochemistry, molecular biology, bioengineering, biotechnology, and bioinformatics.
Modifications in biomacromolecules (DNA, RNA, and proteins) are important molecular events in different pathophysiological conditions. These modifications include DNA modifications, RNA post-transcriptional modifications, and protein post-translational modifications that regulate the structures and functions of biomacromolecules and even the entire biological system. In addition, they are associated with a wide spectrum of diseases. Biomacromolecular modifications are important factors in creating proteoforms that constitute the end-point structural and functional forms of a gene or protein that can be applied for predictive, preventive, and personalized medicine (PPPM) as well as precision medicine (PM).
Linkers in Biomacromolecules, Volume 647 in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. New sections in this updated release include chapters devoted to ser-gly linkers + models, sergGly- EAAAK linkers, Effect of crowding on linker behavior, Protathether. Experimental approach to quickly test different linkers in fusion proteins, Linkers in enzyme fusions/cascade catalysis, Linker dependence of avidity in multivalent interactions between disordered proteins, ER/K a-helix linker, The effect of chirality and steric hindrance on intrinsic backbone conformational propensities: tools for protein design, Linker design in protein-based nanostructures, and much more. Linkers in Biomacromolecules, Volume 647 in the Methods in Enzymology series continues the legacy of this premier serial with quality chapters authored by leaders in the field. New sections in this updated release include chapters devoted to ser-gly linkers + models, sergGly- EAAAK linkers, Effect of crowding on linker behavior, Protathether. Experimental approach to quickly test different linkers in fusion proteins, Linkers in enzyme fusions/cascade catalysis, Linker dependence of avidity in multivalent interactions between disordered proteins, ER/K a-helix linker, The effect of chirality and steric hindrance on intrinsic backbone conformational propensities: tools for protein design, Linker design in protein-based nanostructures, and much more. Provides the authority and expertise of leading contributors from an international board of authors Presents the latest release in the Methods in Enzymology series
Written by one of the most significant contributors to the progress of protein crystallography, this practical guide contains case studies, a troubleshooting section and pointers on data interpretation. It covers the theory, practice and latest achievements in x-ray crystallography, such that any researcher in structural biology will benefit from this extremely clearly written book. Part A covers the theoretical basis and such experimental techniques as principles of x-ray diffraction, solutions for the phase problem and time-resolved x-ray crystallography. Part B includes case studies for different kinds of x-ray crystal structure determination, such as the MIRAS and MAD techniques, molecular replacement, and the difference Fourier technique.
Bioelectrochemistry: Principles and Practice provides a comprehensive compilation of all the physicochemical aspects of the different biochemical and physiological processes. Macromolecules, essentially nucleic acids, proteins and complex carbohydrates, are the building blocks of cell structure and function. This fifth volume in the "Bioelectrochemistry" series deals essentially with water-soluble biomacromolecules, since the properties of membrane-bound proteins are considered in other volumes of this series. The first chapter provides an extensive review of the structure, chemical reactivity and electromagnetic properties of nucleic acids. The following five chapters concentrate on proteins, their structure, folding and function, the electrochemistry of redox proteins and voltammetric methods. Special attention is devoted to the field of thiol/disulfide exchange as well as to one particular class of proteins, the iron-sulfur proteins. The last chapter considers the chemistry and properties of glycosaminoglycans, the complex charged polysaccharides of the cell surface and extracellular matrix. This series is intended as a set of source books for graduate and postgraduate students as well as research workers at all levels in bioelectrochemistry.
Nanomaterials are organic or inorganic entities employed for the construction of various nanostructured devices or systems with nanometric dimensions. These nanostructures may include nanoparticles, nanowires, nanotubes, nanocapsules, nanocomposites as well as nanoporous solids. Nanomaterials have gained immense recognition, particularly in biomacromolecular delivery, owing to their capability of controlling the release rate or targeting the therapeutic moieties at molecular, cellular and organ level. Additionally, the problems of conformational and degradation stability associated with biomacromolecules like peptides, proteins, and genes have been addressed successfully by employing these nanomaterials. The degradation products of these biocompatible nanomaterials are non-toxic, non-immunogenic and easily resorbable by the regular physiological processes. The present chapter endeavors to describe the role of nanomaterials in the design, fabrication and development of various nanostructured, biomacromolecular delivery systems and devices. The chapter presents a discussion on various physicochemical properties, preparation techniques and analytical tools for characterizing these systems. The mechanisms of cellular internalization of nanomaterial based targeted systems are also discussed. Taking lead from various successful case studies, the present chapter provides a bird’s eye view on the current advances in the field of nanomaterial based biomacromolecular delivery. A brief overview pertaining to the regulatory requirements and commercialization of these systems is also included. Various challenges posed during the development, scale up and large-scale production is also discussed. In a nutshell, besides, providing the salient details about the formulation and applications of biocompatible nanomaterials, the chapter would act as a ready reference for drug delivery scientists, device fabrication engineers and medical researchers working in this area.
Reports up-to-date research developments on purifying and isolation large organic molecules. The text provides information on high-performance liquid chromatography and capillary electrophoresis (CE) as tools for analyzing biomacromolecules and developing new biochemical and medicinal compounds. It applies biochemical separation technology to the study of macromolecules such as proteins, polysaccharides, nucleic acids and more.
Providing a broad introduction to the growing field, this book explores the way in which peptides, proteins, nucleic acids and carbohydrates used therapeutically. With help of numerous illustrations, it covers both the compounds and how therapeutics exert their influence throuhg an understanding of biological processes. * Includes the latest developments in the field * Covers the various strategies behind the development and production of a range of key clinically useful compounds * Focuses on the concepts and ideas of why compounds are developed as pharmaceuticals * Provides many examples and problems Invaluable to all students of chemistry, medicinal and pharmaceutical chemistry, pharmacy and pharmacology. Will also be of interest to researchers and professionals needing a concise, up-to-date account of this subject.
Biological Macromolecules: Bioactivity and Biomedical Applications presents a comprehensive study of biomacromolecules and their potential use in various biomedical applications. Consisting of four sections, the book begins with an overview of the key sources, properties and functions of biomacromolecules, covering the foundational knowledge required for study on the topic. It then progresses to a discussion of the various bioactive components of biomacromolecules. Individual chapters explore a range of potential bioactivities, considering the use of biomacromolecules as nutraceuticals, antioxidants, antimicrobials, anticancer agents, and antidiabetics, among others. The third section of the book focuses on specific applications of biomacromolecules, ranging from drug delivery and wound management to tissue engineering and enzyme immobilization. This focus on the various practical uses of biological macromolecules provide an interdisciplinary assessment of their function in practice. The final section explores the key challenges and future perspectives on biological macromolecules in biomedicine. Covers a variety of different biomacromolecules, including carbohydrates, lipids, proteins, and nucleic acids in plants, fungi, animals, and microbiological resources Discusses a range of applicable areas where biomacromolecules play a significant role, such as drug delivery, wound management, and regenerative medicine Includes a detailed overview of biomacromolecule bioactivity and properties Features chapters on research challenges, evolving applications, and future perspectives