Biochemical Education


Book Description

The purpose of the present text is to distil the experience of a number of workers active in the field of biochemical education, so providing readable accounts which, it is hoped, will be of significant benefit to those who are new to the teaching profession in addition to those who may be stimulated to experiment with alternative strategies in their own teaching situation. From the various contributions considered in this book, each topic, in its widest sense, would warrant at least a volume on its own and indeed such texts are currently available. However, it was felt more appropriate to restrict the coverage to those aspects which are of particular use to the subject of biochemistry and, for which, work in this area has already achieved some measure of success. In effect what each of us is doing is supplying findings from a body of knowledge collectively called educational technology. Without entering the debate on the semantics of what educational technology is or is not, it doesn't take long to realise that, like the vast majority of subject areas, it has its own unique terminologies and vocabulary. Whilst it is inevitable that such terms will appear throughout the text, hopefully all will be explained on first use and so it is not envisaged that this will be too distractive to the reader.




The Early Days of Yeast Genetics


Book Description

Yeast genetics began with Winge's 1935 studies of S. cerevisiae in Copenhagen, and afterwards was pursued by Lindegren in the U.S. and Ephrussi in France. Genetic studies in S. pombe were pioneered by Leupold in the 1940s in Switzerland. Within four decades, not without controversies, both yeast species were recognized as essential models in eukaryotic molecular cell biology. In this remarkable volume, Hall and Linder have assembled the reminiscences of many early investigators whose pioneering studies in the years before 1975 brought yeast biology to its current maturity. These illustrated essays about the science, the events and the personalities involved capture a fascinating era, in the informal style made famous by Phage and the Origins of Molecular Biology. This is a book that all scientists interested in the development of modern genetics and molecular biology should have on their shelves.




Mitochondrial Function


Book Description




Techniques in Molecular Biology


Book Description

The last few years have seen the rapid development of new methodology in the field of molecular biology. New techniques have been regularly introduced and the sensitivity of older techniques greatly improved upon. Developments in the field of genetic engineering in particular have contributed a wide range of new techniques. The purpose of this book therefore is to introduce the reader to a selection of the more advanced analytical and preparative techniques which the editors consider to be frequently used by research workers in the field of molecular biology. In choosing techniques for this book we have obviously had to be selective, and for the sake of brevity a knowledge of certain basic biochemical techniques and terminology has been assumed. However, since many areas of molecular biology are developing at a formidable rate and constantly generating new terminology, a glossary of terms has been included. The techniques chosen for this book are essentially based on those used in a series of workshops on 'techniques in molecular biology' that have been held at The Hatfield Polytechnic in recent years. In choosing these chapters we have taken into account many useful suggestions and observations made by participants at these workshops. Each chapter aims to describe both the theory and relevant practical details for a given technique, and to identify both the potential and limitations of the technique. Each chapter is written by authors who regularly use the technique in their own laboratories.










Perspectives on Genetics


Book Description

For more than ten years, the distinguished geneticists James F. Crow and William F. Dove have edited the popular "Perspectives" column in Genetics, the journal of the Genetics Society of America. This book, Perspectives on Genetics, collects more than 100 of these essays, which cumulatively are a history of modern genetics research and its continuing evolution.




Dimorphic Fungi in Biology and Medicine


Book Description

Fungal dimorphism is a topic that sounds inherently too rarified to attract more than a specialist audience. Yet some 230 individuals representing an eclectic mixture of interests, from basic science to medical practice, gathered in Churchill College, Cambridge in Semptember 1992 for a meeting devoted only to this subject. The symposium was the fourth in a series "Topics in Mycology" to be jointly organized by the Janssen Research Foundation and the International Society for Human and Animal Mycology. The participants enjoyed a rich and varied diet of oral presentations and poster displays in the field of fungal morphogenesis. This book sets down in print the material presented at the dimorphism symposium. We think that the high quality of these papers conveys very well the flavor of what was an excellent meeting. The selection of contributions in this volume covers very wide ground indeed. Chapters devoted to some non-pathogenic fungi are included, because the scientific basis of morphological development belongs to the fields of cellular and molecular biology: it does not recognize the boundary imposed by considerations of virulence of a fungus for a human host. Yet morphogenetic change in those fungi that do cause human disease frequently appears to be a component of the pathological process: many important pathogens change from a hyphal form in the external environment to a round form in infected tissues. This relationship between dimorphism and pathogenicity is the point of contact between pure biology and medicine.




Metabolism and Molecular Physiology of Saccharomyces Cerevisiae


Book Description

Since the publication of the best-selling first edition, much has been discovered about Saccharomyces cerevisiae, the single-celled fungus commonly known as baker's yeast or brewer's yeast that is the basis for much of our understanding of the molecular and cellular biology of eukaryotes. This wealth of new research data demands our attention and r