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RNA-Ligand Interactions, Part B focuses on molecular biology methods. Major topics covered include: solution probe methods, tethered-probe methodologies, in vitro affinity selection methodologies, genetic methodologies for detecting RNA-protein interactions, protein engineering methodologies useful for RNA-protein interaction studies, and cell biology methods.RNA-Ligand Interactions, Part A, its companion, VOLUME 317 focuses on structural biology methods.The critically acclaimed laboratory standard for more than forty years, Methods in Enzymology is one of the most highly respected publications in the field of biochemistry. Since 1955, each volume has been eagerly awaited, frequently consulted, and praised by researchers and reviewers alike. Now with more than 300 volumes (all of them still in print), the series contains much material still relevant today--truly an essential publication for researchers in all fields of life sciences.
This volume and its companion, Volume 351, are specifically designed to meet the needs of graduate students and postdoctoral students as well as researchers, by providing all the up-to-date methods necessary to study genes in yeast. Procedures are included that enable newcomers to set up a yeast laboratory and to master basic manipulations. Relevant background and reference information given for procedures can be used as a guide to developing protocols in a number of disciplines. Specific topics addressed in this book include basic techniques, making mutants, genomics, and proteomics.
The critically acclaimed laboratory standard for more than forty years, Methods in Enzymology is one of the most highly respected publications in the field of biochemistry. Since 1955, each volume has been eagerly awaited, frequently consulted, and praised by researchers and reviewers alike. Now with more than 300 volumes (all of them still in print), the series contains much material still relevant today—truly an essential publication for researchers in all fields of life sciences. - Protein Structure and Function - Nucleic Acids and Genes
Produced by microbes on a large scale, methane is an important alternative fuel as well as a potent greenhouse gas. This volume focuses on microbial methane metabolism, which is central to the global carbon cycle. Both methanotrophy and methanogenesis are covered in detail. Topics include isolation and classification of microorganisms, metagenomics approaches, biochemistry of key metabolic enzymes, gene regulation and genetic systems, and field measurements. The state of the art techniques described here will both guide researchers in specific pursuits and educate the wider scientific community about this exciting and rapidly developing field. Topics include isolation and classification of microorganisms, metagenomics approaches, biochemistry of key metabolic enzymes, gene regulation and genetic systems, and field measurements. The state of the art techniques described here will both guide researchers in specific pursuits and educate the wider scientific community about this exciting and rapidly developing field.
Thiol Redox Transitions in Cell Signaling, Part A, along with its companion (volume 475), presents methods and protocols dealing with thiol oxidation-reduction reactions and their implications as they relate to cell signaling. This first installment of Cadenas and Packer's two-volume treatment specifically deals with glutathionylation and dethiolation, and peroxide removal by peroxiredoxins/thioredoxins and glutathione peroxidases. The critically acclaimed laboratory standard for 40 years, Methods in Enzymology is one of the most highly respected publications in the field of biochemistry. Since 1955, each volume has been eagerly awaited, frequently consulted, and praised by researchers and reviewers alike. Over 450 volumes have been published to date, and much of the material is relevant even today--truly an essential publication for researchers in all fields of life sciences. - Along with companion volume, provides a full overview of techniques necessary to the study of thiol redox in relation to cell signaling - Gathers tried and tested techniques from global labs, offering both new and tried-and-true methods - Relevant background and reference information given for procedures can be used as a guide to developing protocols in a number of disciplines
Liposomes are cellular structures made up of lipid molecules, which are water insoluble organic molecules and the basis of biological membranes. Important as a cellular model in the study of basic biology, liposomes are also used in clinical applications such as drug delivery and virus studies. Liposomes Part F is a continuation of previous MIE Liposome volumes A through E. * One of the most highly respected publications in the field of biochemistry since 1955 * Frequently consulted and praised by researchers and reviewers alike * Truly an essential publication for anyone in any field of the life sciences
The discovery that nitrogen monoxide or nitric oxide (NO)is a biologically produced free radical has revolutionized our thinking about physiological and pathological processes. This discovery has ignited enormous interest in the scientific community. When generated at low levels, NO is a signaling molecule, but at high concentration, NO is a cytotoxic molecule. The physiological and pathological processes of NO production and metabolism and its targets, currently areas of intensive research, have important pharmacologic implications for health and disease.
The Nobel Prize was awarded in Physiology or Medicine in 1998 to Louis J. Ignarro, Robert F. Furchgott and Ferid Murad for demonstrating the signaling properties of nitric oxide. Nitric oxide (NO) is one of the few gaseous signaling molecules and is a key biological messenger that plays a role in many biological processes. NO research has led to new treatments for treating heart as well as lung diseases, shock and impotence. (Sildenafil, popularly known by the trade name Viagra, enhances signaling through NO pathways.) Scientists are currently testing whether NO can be used to stop the growth of cancerous tumors, since the gas can induce programmed cell death, apoptosis.This is another "must-have volume packed with robust methods from authors around the globe. Researchers interested in the detailed biochemistry of NO and its synthesis will have this indispensable volume on their shelves. - Essential resource for every laboratory involved in NO-related work - Gathers tried and tested techniques from global labs which eliminates searching through many different sources and avoids pitfalls so the same mistakes are not made over and over - Aids researchers in the design of medically important therapies for heart disease and cancer
Angiogenesis is the growth of new blood vessels and is an important natural process in the body. A healthy body maintains a perfect balance of angiogenesis modulators. In many serious disease states, however, the body loses control over angiogenesis. Diseases that are angiogenesis-dependent result when blood vessels either grow excessively or insufficiently. Understanding how angiogenesis "works" and how to control it, will have massive implications on the management, treatments, and ultimately the prevention of many common (and not so common) diseases. Angiogenesis cuts across virtually every discipline. The Angiogenesis Foundation identified angiogenesis as a "common denominator" in our most serious diseases. Excessive angiogenesis occurs in diseases such as cancer, diabetic blindness, age-related macular degeneration, rheumatoid arthritis, psoriasis, and many other conditions. Insufficient angiogenesis occurs in diseases such as coronary artery disease, stroke, and delayed wound healing. Tried-and-tested techniques written by researchers that developed them, used them, and brought them to fruition Provides the "builder's manual" for essential techniques. This is a one-stop shop that eliminates needless searching among untested techniques Includes step-by-step methods for understanding the cell and molecular basis of wound healing, vascular integrin signaling, mechanical signaling in blood vessels, and vascular proteomics