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Blood Substitutes
This book is not a "proceedings" volume. Rather the chapters are essays by experts in the field of blood substitutes, invited by the editors to con tribute to the 1996 "Current Issues in Blood Substitutes Research and Development" course given in San Diego, March 18-21. The contributors were selected because of their expertise in areas deemed by the editors to be critical to the advancement of the field. The course, as in past years, is heavily influenced by feedback from par ticipants, and by research in this and related fields. In addition to the didactic lectures (for which these chapters are the foundation), the course also offers the opportunity for presentation of research reports, progress reports from the various companies currently commercializing products, and round table discussions of selected subjects. Thus, we are grateful to past participants for their helpful comments. Production of a book, especially on a short timeline, is not an easy feat.
Translation Initiation: Reconstituted Systems and Biophysical Methods
For over fifty years the Methods in Enzymology series has been the critically aclaimed laboratory standard and one of the most respected publications in the field of biochemistry. The highly relevant material makes it an essential publication for researchers in all fields of life and related sciences. This volume, the second of three on the topic of Translation Initiation includes articles written by leaders in the field.
Single Molecule Tools, Part B: Super-Resolution, Particle Tracking, Multiparameter, and Force Based Methods
Single molecule tools have begun to revolutionize the molecular sciences, from biophysics to chemistry to cell biology. They hold the promise to be able to directly observe previously unseen molecular heterogeneities, quantitatively dissect complex reaction kinetics, ultimately miniaturize enzyme assays, image components of spatially distributed samples, probe the mechanical properties of single molecules in their native environment, and "just look at the thing" as anticipated by the visionary Richard Feynman already half a century ago. Single Molecule Tools, Part B: Super-Resolution, Particle Tracking, Multiparameter, and Force Based Methods captures a snapshot of this vibrant, rapidly expa...
Constitutive Activity in Receptors and Other Proteins, Part B
This volume of Methods in Enzymology covers the current methodology for the detection and assessment of constitutively active proteins. The chapters written by expert authors who are leaders in the field, provide hints and tricks not available in primary research publications.It is extensively referenced, with useful figures and tables throughout the volume. - Expert authors who are leaders in the field - Extensively referenced and useful figures and tables - Provides hints and tricks to facilitate reproduction of methods
Glycomics
In this 3 volume collection focusing on glycomics, readers will appreciate how such discoveries were made and how such methods can be applied for readers' own research efforts - Each chapter has been designed so that enough scientific background will be given in each chapter for further development of methods by readers themselves - Useful for all levels of scientists starting from the last years of colleges, graduate students, postdoctoral fellows to professors and to all levels of scientists in research institutes including industry
Nitric Oxide, Part F
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.
Nanomedicine
This volume in the Methods in Enzymology series comprehensively covers Cancer, Cardiovascular and the central nervous system of Nanomedicine. With an international board of authors, this volume is split into sections that cover subjects such as Diabetes and nanotechnology as potential therapy, Nanomedicines for inflammatory diseases, and Development and use of ceramide nanoliposomes in cancer. - Comprehensively covers cancer and the cardiovascular and central nervous systems of nanomedicine - An international board of authors - Split into sections that cover subjects such as diabetes and nanotechnology as potential therapy, nanomedicines for inflammatory diseases, and the development and use of ceramide nanoliposomes in cancer
Liposomes, Part F
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
Programmed Cell Death Part A
The 2002 Nobel Prize in Physiology or Medicine was awarded to Sydney Brenner (UK),H. Robert Horvitz (US)and John E. Sulston (UK) "for their discoveries concerning genetic regulation of organ development and programmed cell death." Cell death is a fundamental aspect of embryonic development, normal cellular turnover and maintenance of homeostasis (maintaining a stable, constant environment) on the one hand, and aging and disease on the other. This volume addresses the significant advances with the techniques that are being used to analyze cell death.*Provides the necessary, trusted methods to carry out this research on the latest techniques. Once researchers understand the molecular mechanisms of the apoptotic pathways, they can begin to develop new therapies *Presents key methods on studying tumors and how these cancer cells evade cell death*Eliminates searching through many different sources to avoid pitfalls so the same mistakes are not made over and over
