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Experts present methods and protocols essential for understanding parasites at the molecular level. The protocols cover culturing techniques for the major experimental organisms, methods for isolating and processing nucleic acids and proteins, PCR-based protocols for parasite identification, gene isolation and mutation, antibody-based procedures, chromosome and epitope mapping, flow cytometry, RNA sequencing, and parasite transformation.
Protocols in Molecular Parasitology offers a wide range of experi mental protocols, each written by experts, to research workers interested in exploring the molecular aspects of parasitology. This is a field that has expanded enormously in scope and potential over the last decade, although it is as yet significantly underrepresented in the literature out side of academic journals. The need for manuals such as this one stems in part from the increasing difficulty of reproducing experimental tech niques from reports in standard journal papers, where pressures on space usually result in highly abbreviated descriptions. The "Notes" sections of the following chapters are particularly aimed at counteracting this problem. Since the emphasis of the book is on aspects of molecular analysis, it was possible to devote only a limited amount of space to describing protocols for culture and isolation of the primary parasitic material. Therefore, of the numerous parasitic systems that are currently being investigated in laboratories around the world, only techniques for c- turing the "big five" are described here, since they collectively account for the great bulk of research in this field. It is also possible that some minor front-end modifications to certain protocols may be necessary, depending on exactly which parasite is being studied.
In the past years, genome projects for numerous human parasites have been completed and now allow first in depth comparisons and evolutionary conclusions. The genomes of parasites reflect the coevolution with their host, metabolic capacities depending on their respective habitat in the host. Gut parasites usually have an anaerobic metabolism, while blood parasites have an aerobic metabolism, intracellular parasites escape the immune system, while extracellular parasites evade the immune system, usually by antigenic variation. Comprehensive genome data now being available allow us to address profound scientific questions, such as which traits enable the parasite to survive in the human host, which to cause disease and which can be used as drug targets. This book intends to give an overview of the state of knowledge on “the molecules” of protozoan parasites – on their genomes, proteomes, glycomes and lipidomes.
It has been estimated that approximately one fifth of the world's population is carrying one or more of the parasitic organisms which cause malaria schistosomiasis, trypanosomiasis and other debilitating diseases. The study of these immensely successful organisms has traditionally drawn on many disciplines, especially microbiology, immunology and biochemistry. Over the last decade, parasitologists have acquired an additional and very powerful tool in the form of molecular biology and its associated technology. This has led to the analysis of parasitic systems in detail undreamed of only a generation ago. As the picture of molecular actions and interactions builds up, so new aproaches to combatting parasites suggest themselves.
Traditionally, laboratory identification of parasites has relied upon various phenotypic procedures that detect their morphological, biological, and immunological features. Because these procedures tend to be time-consuming and technically demanding, molecular methods based on nucleic acid amplification technologies have been increasingly utilized for rapid, sensitive, and specific characterization of parasites. The large number of original and modified molecular protocols that have been developed over the years creates a dilemma for those attempting to adopt the most appropriate protocol for streamlined identification and detection of human pathogenic organisms of interest. Part of a four-volume collection, Molecular Detection of Human Parasitic Pathogens provides a reliable and comprehensive resource on the molecular detection and identification of major human parasitic pathogens. This volume contains expert contributions from international scientists involved in human parasitic pathogen research and diagnosis. Following a similar format throughout, each chapter includes: A brief review on the classification, biology, epidemiology, clinical features, and diagnosis of an important pathogenic parasitic genus/group An outline of clinical sample collection and preparation procedures and a selection of representative stepwise molecular protocols A discussion on further research needs relating to improved diagnoses of major human parasitic pathogens This versatile reference on molecular detection and identification of major human parasitic pathogens is an indispensable tool for upcoming and experienced medical, veterinary, and industrial laboratory scientists engaged in parasite characterization. It is also suitable as a textbook for undergraduate and graduate students majoring in parasitology.
Frontiers in Parasitology is an Ebook series devoted to publishing the latest and the most important advances in parasitology. Eminent scientists present reviews on the microbiology, cytology, epidemiology, genomics, and molecular biology of microbial parasites and their associated infections. Additionally, the series also gives information about new diagnostic and therapeutic protocols. The Ebook series is essential reading to all scientists involved in studying harmful microbes and their impact on human health.
Over the past ten years, many powerful new techniques have been developed that have dramatically changed malaria research. The second edition of Malaria: Methods and Protocols expands upon the previous edition with current, detailed techniques for laboratory research. With new chapters on parasite culture techniques, genome manipulation methods, 'omic' approaches, and techniques for studying the biology of the red blood cell and pre-erythrocytic stages of Plasmodium. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Malaria: Methods and Protocols, Second Edition, offers a comprehensive set of standard techniques for laboratory researchers.