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Plant lectins are extensively used as tools and as bioactiveproteins in different areas of biomedical and biological research.The Handbook of Plant Lectins provides a comprehensive yet conciseoverview of the biochemical properties, carbohydrate-bindingspecificity, biological activities and applications of most of thecurrently known plant lectins. This handbook consists of two majorsections: an introductory guide and a quick reference dictionary.Part I acquaints the newcomer to the lectin field with theessential information on lectins and their importance tobiomedicine: * what are lectins? * their carbohydrate-binding specificity * effects on nutrition and immunology * use in histochemistry * application as therapeutic agents Part II lists approximately 200 lectin entries in alphabeticalorder. Each entry deals with the lectin(s) of a particular plantand provides, (where known), details of: * isolation and characterisation; * sugar binding specificity; * biological activities; * applications; * commercial availability; and, * a bibliography. Useful summary tables list lectins according to their specificity,thereby allowing the user to choose the best lectin for theirapplication. A list of suppliers is also provided. Handbook ofPlant Lectins will be of interest to biologists and biomedicalresearchers studying cell biology, cancer research, nutrition,immunology, pathology and physiology.
Lectins: Analytical Technologies covers both analytical and biological aspects of lectins (functional carbohydrate (complex sugar) recognition proteins) and provides researchers in the field with a resource containing background information and 'look-up' tables detailing lectin specificity and structures. Also included are methods and practical tips for designing new lectins from existing non-lectin proteins, automated approaches to lectin proteomics and high resolution mass spectrometry techniques. This book will be of interest to both novice and advanced researchers in biomedical, analytical and pharmaceutical fields who are involved in the study of lectin structures or who utilize lectins as analytical tools. The study of lectins and their employment in analytical settings spans a range of fields including: * Crystallography and lectin structure databases* Carbohydrate microarrays for lectin characterization and glycotope identification* Proteomic approaches to the functional identification of bacterial adhesins* Generation of lectins from enzymes* Probing cell-surface lectins with neoglycoconjugates* Reviews up-to-date techniques, including practical hints for laboratory work* Provides overview of lectin e-resources and several color illustrations* Includes a 'look-up' table detailing lectin specificity
The intriguing complexity, precision, and regulation of the wide range of biologi cal processes is determined by intricate mechanisms of molecular recognition. Their nature is under intense scrutiny. In addition to the well-appreciated interac tion of proteins either with amino acid or nucleotide sequences, the investigation of their interplay with carbohydrate elements of cellular glycoconjugates current ly exerts increasing attraction. In the group of carbohydrate-binding proteins, lec tins are distinguished from antibodies or ligand-affecting enzymes, according to the most recent definition. The thorough analysis of their structure and function is considered as a focus to collect a critical mass of information for delineating details of a further array of biochemical processes with pivotal physiological im pact. Following an already century-long history of scientific description, reflected by subjectively chosen highlights (see the Brief History of Lectin Research at page VI), the excitement in glycobiological research that prevails today can easily be ex plained by our growing awareness of the multifarious significance of a sugar-code system of biological information. This present notion unmistakably has an im pact on lines of research in diverse disciplines like cell and molecular biology, histochemistry, or clinical sciences. It also prompts inherent practical questions such as how to obtain lectins, or how to employ them as instruments in various assay systems with the best possible results. Thus, this book is devoted intentionally to cover the techniques in different research fields that deal with lectins.
From renowned cardiac surgeon Steven R. Gundry, MD, the New York Times bestselling The Plant Paradox is a revolutionary look at the hidden compounds in "healthy" foods like fruit, vegetables, and whole grains that are causing us to gain weight and develop chronic disease. Most of us have heard of gluten—a protein found in wheat that causes widespread inflammation in the body. Americans spend billions of dollars on gluten-free diets in an effort to protect their health. But what if we’ve been missing the root of the problem? In The Plant Paradox, renowned cardiologist Dr. Steven Gundry reveals that gluten is just one variety of a common, and highly toxic, plant-based protein called lectin. Lectins are found not only in grains like wheat but also in the “gluten-free” foods most of us commonly regard as healthy, including many fruits, vegetables, nuts, beans, and conventional dairy products. These proteins, which are found in the seeds, grains, skins, rinds, and leaves of plants, are designed by nature to protect them from predators (including humans). Once ingested, they incite a kind of chemical warfare in our bodies, causing inflammatory reactions that can lead to weight gain and serious health conditions. At his waitlist-only clinics in California, Dr. Gundry has successfully treated tens of thousands of patients suffering from autoimmune disorders, diabetes, leaky gut syndrome, heart disease, and neurodegenerative diseases with a protocol that detoxes the cells, repairs the gut, and nourishes the body. Now, in The Plant Paradox, he shares this clinically proven program with readers around the world. The simple (and daunting) fact is, lectins are everywhere. Thankfully, Dr. Gundry offers simple hacks we easily can employ to avoid them, including: Peel your veggies. Most of the lectins are contained in the skin and seeds of plants; simply peeling and de-seeding vegetables (like tomatoes and peppers) reduces their lectin content. Shop for fruit in season. Fruit contain fewer lectins when ripe, so eating apples, berries, and other lectin-containing fruits at the peak of ripeness helps minimize your lectin consumption. Swap your brown rice for white. Whole grains and seeds with hard outer coatings are designed by nature to cause digestive distress—and are full of lectins. With a full list of lectin-containing foods and simple substitutes for each, a step-by-step detox and eating plan, and delicious lectin-free recipes, The Plant Paradox illuminates the hidden dangers lurking in your salad bowl—and shows you how to eat whole foods in a whole new way.
Handbook of Methods and Instrumentation in Separation Science, Volume 1 provides concise overviews and summaries of the main methods used for separation. It is based on the Encyclopedia of Separation Science. The handbook focuses on the principles of methods and instrumentation. It provides general concepts concerning the subject matter; it does not present specific procedures. This volume discusses the separation processes including affinity methods, analytical ultracentrifugation, centrifugation, chromatography, and use of decanter centrifuge and dye. Each methodology is defined and compared with other separation processes. It also provides specific techniques, principles, and theories concerning each process. Furthermore, the handbook presents the applications, benefits, and validation of the processes described in this book. This handbook is an excellent reference for biomedical researchers, environmental and production chemists, flavor and fragrance technologists, food and beverage technologists, academic and industrial librarians, and nuclear researchers. Students and novices will also find this handbook useful for practice and learning. - One-stop source for information on separation methods - General overviews for quick orientation - Ease of use for finding results fast - Expert coverage of major separation methods - Coverage of techniques for all sizes of samples, pico-level to kilo-level
The Foodborne Disease handbook, Second Edition, Revised and Expanded, could not be appearing at a more auspicious time. Never before has the campaign for food safety been pursued so intensely on so many fronts in virtually every country around the world. This new edition reflects at least one of the many aspects of that intense and multifaceted campaign: namely, that research on food safety has been very productive in the years since the first edition appeared. The Handbook is now presented in four volumes instead of the three of the 1994 edition. Volume 3 of this series of books on food gums and hydrocolloids continues with a pragmatic coverage of three important categories of gum, i.e., the cellulose gums, the plant seed gums, and the pectins. The chemical, physical and functional properties of each of the important food gums in these categories are reviewed and discussed in relation with their utility in food product applications. The four volumes are composed of 86 chapters, a 22% increase over the 67 chapters of the first edition. Much of the information in the first edition has been carried forward to this new edition because that information is still as reliable and pertinent as it was in 1994. This integration of the older data with the latest research findings gives the reader a secure scientific foundation on which to base important decisions affecting the public‘s health.
A study of foodborne disease, focusing on plant toxicants. This second edition contains new chapters on poison centre management of exposures to plant and mushroom toxins; medical management of plant poisoning; prevention and management of plant toxicants in livestock; Clavicepis; mushroom biology, epidemiology, poisoning and medical management; fungi in folk medicine; and more.
The Protein Protocols Handbook, Second Edition aims to provide a cross-section of analytical techniques commonly used for proteins and peptides, thus providing a benchtop manual and guide for those who are new to the protein chemistry laboratory and for those more established workers who wish to use a technique for the first time. All chapters are written in the same format as that used in the Methods in Molecular BiologyTM series. Each chapter opens with a description of the basic theory behind the method being described. The Materials section lists all the chemicals, reagents, buffers, and other materials necessary for carrying out the protocol. Since the principal goal of the book is to provide experimentalists with a full account of the practical steps necessary for carrying out each protocol successfully, the Methods section contains detailed st- by-step descriptions of every protocol that should result in the successful execution of each method. The Notes section complements the Methods material by indicating how best to deal with any problem or difficulty that may arise when using a given technique, and how to go about making the widest variety of modifications or alterations to the protocol. Since the first edition of this book was published in 1996 there have, of course, been significant developments in the field of protein chemistry.
Sugar chains (glycans) are often attached to proteins and lipids and have multiple roles in the organization and function of all organisms. "Essentials of Glycobiology" describes their biogenesis and function and offers a useful gateway to the understanding of glycans.
The Handbook of Glycomics provides the first comprehensive overview of the emerging field of glycomics, defined as the study of all complex carbohydrates in an organism or cell ("the glycome"). Beginning with analytic approaches and bioinformatics, this work provides a detailed discussion of relevant databases, data integration, and analysis. It then moves on to a discussion of specific model organism and pathogen glycomes followed by therapeutic approaches to human disorders of glycosylization. Structure and function of glycomes are included along with state-of-the-art technologies and systems approaches to the analysis of glycans. - Synthesizes contributions from experts in biology, chemistry, bioinformatics, biotechnology, and medicine - Highlights chapters devoted to chemical synthesis, cancer glycomics and immune cell glycomics - Includes discussions of proteomics, mass spectrometry, NMR, array technology, and transcriptomics analytic approaches