Bøger udgivet af Cold Spring Harbor Laboratory Press,U.S.

Highly illustrated and based heavily on early 20th century original sources, the book traces the roots of genetics in breeding analysis and studies of cytology, evolution, and reproductive biology that began in Europe but were synthesized in the United States through new Ph.D. programs and expanded academic funding. Readable and original, this narrative will interest historians and science educators as well as today's practitioners of genetics.

Ageless Quest is a personal, sometimes controversial, account of the pursuit of a genetic 'cure' for aging by an expert in the field. The author is the Novartis Professor of Biology at the Massachusetts Institute of Technology. Aging has always been regarded as a highly complex process with many degenerative changes leading to the cessation of life. But recent research has identified a relatively simple mechanism that governs the pace of aging. Lenny Guarente's Ageless Quest is a scientific detective story for the baby boom generation. It offers an insider's view of an area of potentially astonishing high reward--and equally high risk.

"99% of mouse protein-coding genes have an equivalent homolog in the human genome, despite the striking differences in appearance between mouse and man. This remarkable genetic similarity, together with our ability to finely engineer the murine genome, has made the mouse the ideal animal in which to model and analyze human biology and disease. This

Reilly discusses over 90 common conditions, diseases, and disorders, arranged from conception to old age. In frank, non-technical terms, he makes clear what is known and not known about the genetic factors and, if your risk is elevated, what you might be able to do about it. This book is a uniquely valuable resource for anyone seeking more information about a family's disease heritage.

This is the second edition of a highly successful textbook (over 50,000 copies sold) in which a highly illustrated, narrative text is combined with easyâ€"toâ€"use thoroughly reliable laboratory protocols. It contains a fully upâ€"toâ€"date collection of 12 rigorously tested and reliable lab experiments in molecular biology, developed at the internationally renowned Dolan DNA Learning Center of Cold Spring Harbor Laboratory, which culminate in the construction and cloning of a recombinant DNA molecule. Proven through more than 10 years of teaching at research and nonresearch colleges and universities, junior colleges, community colleges, and advanced biology programs in high school, this book has been successfully integrated into introductory biology, general biology, genetics, microbiology, cell biology, molecular genetics, and molecular biology courses. The first eight chapters have been completely revised, extensively rewritten, and updated. The new coverage extends to the completion of the draft sequence of the human genome and the enormous impact these and other sequence data are having on medicine, research, and our view of human evolution. All sections on the concepts and techniques of molecular biology have been updated to reflect the current state of laboratory research. The laboratory experiments cover basic techniques of gene isolation and analysis, honed by over 10 years of classroom use to be thoroughly reliable, even in the hands of teachers and students with no prior experience. Extensive prelab notes at the beginning of each experiment explain how to schedule and prepare, while flow charts and icons make the protocols easy to follow. As in the first edition of this book, the laboratory course is completely supported by qualityâ€"assured products from the Carolina Biological Supply Company, from bulk reagents, to useable reagent systems, to singleâ€"use kits, thus satisfying a broad range of teaching applications.

This advanced microscopy manual includes established and evolving methods for studying metabolic and developmental changes in living cells and organisms. It is divided into two sections: the first covers the principles of detection and imaging approaches, and the second deals with detailed protocols for imaging live cells, organelles, and organisms.

Many human diseases--ncluding Alzheimer's disease, schizophrenia, cancer, and cardiovascular disease--show complex inheritance that requires sophisticated analysis. Genetics of Complex Human Diseases: A Laboratory Manual brings together the tools that geneticists use to find disease genes with the genetic concepts and statistical theories that underpin these research approaches. Topics covered include basic genetics and Mendelian inheritance, statistical methods, genetic epidemiology, linkage studies, transmission disequilibrium test analysis, variance components analysis, genome-wide association studies, copy-number variation, methods for high-throughput genotyping, the complexity of RNA editing, and genetic computer programs. The book's chapters, written by leading investigators in the field, blend practical information and reviews of each topic, providing both the how and the why of complex disease analysis. Genetics of Complex Human Diseases is an important guide for anyone with an interest in human genetics or who uses genetic techniques in the study of diseases with complex inheritance.

Selected by his daughter Vivien, these letters chronicle Perutz's life through his own vivid, erudite, and humorous pen. With a spontaneity and directness no autobiography can match, this volume captures the hopes, roadblocks, and moments of elation throughout his 60-year quest to understand the molecular biology of hemoglobin.

A convenient bench companion for biologists, this handbook is designed as a handy reference for elementary and intermediate statistical analyses. Statistical methods most frequently used in publications and reports, as well as guidelines for the interpretation of results, are explained using simple examples with complete instructions for Excel.

In this volume leading experts provide chapters on 23 emerging model systems, ranging from bat and butterfly to cave fish and choanoflagellates; cricket and finch to quail, snail, and tomato.

This monograph captures the current excitement in invertebrate neurobiology, from the manipulation of activity in specified neurons to the investigation of behavior. The monograph emphasizes the evolutionary aspects of neurobiology and work on non-model species.

The intent and uses of science are a continuing preoccupation, especially in public debates on issues such as new pharmaceuticals, cloning, stem cells, genetically modified foods, and assisted reproduction. Times of Triumph, Times of Doubt, written by the eminent geneticist and historian Elof Carlson, explores the moral foundations of science and their role in these hot-button issues. Carlson chooses a variety of case histories and describes their scientific background and the part played by scientists in the application of their work, including their motivations and reactions to bad outcomes, both real and alleged. He examines why ethical lapses have occurred in these areas, why bad things happen when, for the most part, those who worked on the science had only good intentions in mind, and how such lapses can be prevented from occurring in the future. This exploration of ethics and science is important reading for those interested in issues of science and society, including journalists, theologians, legislators, lawyers, and scientists themselves.

The new edition of this successful monograph has been both updated and broadened. Since the previous (second) edition was published in 2000, the structures of the bacterial and eukaryotic ribosomes have been published, advancing our basic understanding of translation and mechanisms involving protein and RNA regulators. In addition, as the title indicates, this edition has a new focus on the role of translational control in human development and disease. This book, with 30 chapters written by experts in the field, is essential reading for anyone interested in the process of translation, its regulation, and how its failure can be the cause of disease.

Phage-display technology has begun to make critical contributions to the study of molecular recognition. DNA sequences are cloned into phage, which then present on their surface the proteins encoded by the DNA. Individual phage are rescued through interaction of the displayed protein with a ligand, and the specific phage is amplified by infection of bacteria. Phage-display technology is powerful but challenging and the aim of this manual is to provide comprehensive instruction in its theoretical and applied so that any scientist with even modest molecular biology experience can effectively employ it. The manual reflects nearly a decade of experience with students of greatly varying technical expertise andexperience who attended a course on the technology at Cold Spring Harbor Laboratory. Phage-display technology is growing in importance and power. This manual is an unrivalled source of expertise in its execution and application.

The synthesis of proteins by ribosomes is a fundamental cellular process. Cells must tightly control protein synthesis to maintain homeostasis and regulate proliferation, growth, differentiation, and development. Indeed, aberrant translational control is associated with cancer, several neurologic syndromes, and genetic disorders including "ribosomopathies." Written and edited by experts in the field, this collection from Cold Spring Harbor Perspectives in Biology covers our current understanding of protein synthesis and its control, from the genomic level to single- molecule analysis and single-cell imaging. The contributors describe the fundamental steps in protein synthesis (initiation, elongation, and termination), the factors involved, and high- resolution structures of the translational machinery. They review the targets of translational control (e.g., initiation factors and mRNAs) and how signaling pathways modulate this machinery. The roles of the endoplasmic reticulum, the unfolded protein response, processing bodies (P-bodies), stress granules, and small RNAs (including microRNAs) are also covered. This volume includes discussion of translational deregulation in cancer and the development of therapeutic agents that target translation initiation. Thus, it is an essential reference for cell and molecular biologists, as well as developmental and neurobiologists, oncologists, virologists, and all those investigating human diseases associated with translation dysfunction.

In this volume leading experts provide chapters on 23 emerging model systems, ranging from bat and butterfly to cave fish and choanoflagellates; cricket and finch to quail, snail and tomato.