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Since the early days, the field of neuropeptide biology has dramatically widened, and today the ultimate frontiers in neuropeptide research lie in the development of pharmacologically active compounds that are capable of crossing the blood-brain barrier to exert their biological role(s) in vivo and in the construction of genetic vectors to be employed in gene therapy. Neuropeptides: Methods and Protocols presents a readily reproducible collection of established and emerging techniques for neuropeptide research as contributed by expert researchers in the field. The detailed methods presented cover subjects such as immunocytochemical localization, biochemical characterization, functional analysis, development and production of genetic probes, and the design of neuropeptide derivatives for cellular neurobiology as well as the potential therapeutic applications. Written in the highly successful Methods in Molecular BiologyTM series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step laboratory protocols, and key tips on troubleshooting and avoiding known pitfalls. Authoritative and easy to follow, Neuropeptides: Methods and Protocols is intended for a large audience of scientists, including histologists, biochemists, cellular and molecular biologists, and electrophysiologists that are currently active in the field or are willing to enter this exciting and still expanding area of neurobiology.
Leading scientists offer an unprecedented suite of master protocols for analyzing neuropeptide structure and function using optimized classic methods and the latest state-of-the-art techniques. This comprehensive collection includes valuable techniques for extracting and purifying neuropeptides from biological sources, for their sequence determination by Edman degradation and PCR, and for the solid-phase synthesis and purification of peptides and peptide analogs. Also covered are physical techniques for the characterization of synthetic or natural peptides, methods for immunocytochemical sample preparation and visualization at both light and electron levels, and techniques for neuropeptide-receptor interaction. Chapters on molecular modeling, radioisotopic labeling, production of antisera, the measurement of efflux from brain to blood, and the assay and inhibition of neuropeptidases complete this indispensable collection of readily reproducible protocols.
The need to continually discover new agents for the control or treatment of invertebrate pests and pathogens is undeniable. Agriculture, both animal and plant, succeeds only to the extent that arthropod and helminth consumers, vectors and pathogens can be kept at bay. Humans and their companion animals are also plagued by invertebrate parasites. The deployment of chemical agents for these purposes inevitably elicits the selection of resistant populations of the targets of control, necessitating a regular introduction of new kinds of molecules. Experience in other areas of chemotherapy has shown that a thorough understanding of the biology of disease is an essential platform upon which to build a discovery program. Unfortunately, investment of research resources into understanding the basic physiology of invertebrates as a strategy to illuminate new molecular targets for pesticide and parasiticide discovery has been scarce, and the pace of introduction of new molecules for these indications has been slowed as a result. An exciting and so far unexploited area to explore in this regard is invertebrate neuropeptide physiology. This book was assembled to focus attention on this promising field by compiling a comprehensive review of recent research on neuropeptides in arthropods and helminths, with contributions from many of the leading laboratories working on these systems.
The Biology of Nematodes synthesizes literature on free-living, plant-parasitic, and animal-parasitic nematodes. Topics covered include systematics and phylogeny, neuromuscular physiology, locomotion, sense organs, behavior, aging, the nematode genome, survival strategies, immunology, structure and organization, gametes and fertilization, and feeding and metabolism. This volume, the most authoritative available, includes contributions from researchers working on groundbreaking molecular techniques leading to new approaches in the study of nematode worms. It provides an important resource for research scientists working in a number of agricultural, medical, and biological fields.
In the 1960s, Sydney Brenner proposed to use the nematode worm Caenorhabditis elegans to discover the control mechanisms of animal development and to reveal how a small number of neurons generate different behaviours, giving birth to a vibrant community that uses this animal model for their studies. Brenner was aided in his aim by John Sulston, who mapped the C. elegans cell lineages – from a single cell to the multicellular adult – which transformed the field of developmental biology. As a tribute to these two men, this book captures the perspectives of some of the early pioneers of the worm community, from Martin Chalfie, Robert Waterston and Donald Moerman to Catherine Rankin, Antony Stretton and John White. It also includes contributions from subsequent generations of the community, who explore the development and function of the C. elegans nervous system. This book features how this animal has become one of the best models for elucidating the biology of different sensory modalities and their complex behavioural outputs, or how this animal’s survival strategies have contributed to our understanding of ageing and neurodegeneration. Thus, this volume documents the development of the C. elegans neuroscience field, from infancy to maturity. The chapters in this book were originally published as a special issue of the Journal of Neurogenetics.
This collection of articles, edited by D. W. Halton, is the specially commissioned supplement to the journal Parasitology, volume 113.