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The development of modern medicine has contributed to clarifying the etiology and treatment of various diseases as well as to improving public health and welfare, and basic biological research has discovered a great deal about the underlying mechanisms at work. However, there are still many diseases which remain mysterious and incurable, and biological processes which are still imperfectly understood. In order to promote research in medicine and biology, non-governmental funding, as well as government support, is very important. The Japan Medical Research Foundation has been in existence since October 1973 in order to meet such needs with aid from non-governmental financial sources. One of the Foundation's main activities is to hold annual symposia and seminars on various diseases and research problems. To elucidate the mechanisms of the development of the nervous system in mammals is one of the most challenging problems for researchers in the field of developmental biology. Are there any formulae in the develop ment of this complicated system? What factors are involved genetically and environmentally? Only a few questions have been answered so far.
Developmental Genetics studies how the genes regulate developmental changes in behavior and influence scientific approaches in several fields. Genetics is the study of heredity. Heredity is a biological process where a parent passes certain genes onto their children or offspring. Every child inherits genes from both of their biological parents and these genes in turn express specific traits. Some of these traits may be physical for example hair and eye color and skin color etc. On the other hand some genes may also carry the risk of certain diseases and disorders that may pass on from parents to their offspring. Development is behind what one looks like. It is directed by genes, the units of heredity, which are made up of deoxyribonucleic acid (DNA) in all animals (including man), plants, microorganisms and most of the viruses except in some viruses where Ribonucleic Acid (RNA) is the genetic material. Developmental Genetics integrates the two disciplines of development and genetics into one. Differential gene expression from genetically identical nuclei creates different cell types. Differential gene expression can occur at the levels of gene transcription, nuclear RNA processing, mRNA translation, and protein modification. Genes are usually repressed. Activation of a gene often means inhibiting its repressor. This leads to thinking in double and triple negatives: Activation is often the inhibition of the inhibitor; repression is the inhibition of the inhibitor of the inhibitor. Besides useful to the students and teachers of the subject the book will also serve as a reference tool to the researchers in genetics developmental biology regenerative medicine and cell biology.
It is appropriate at the outset of this book to pose a question that was often asked --of the organizers before the meeting took place and later among those who participated in the meeting -- "What is meant by 'Systems Approaches' in the study of developmental neurobiology?" The answer, as we originally conceived it, can be succinctly summarized by the word "interactions". That brief epithet was expanded during the general discussion portion of the meeting, where the following definition was offered: "Systems approaches in developmental neurobiology are unified by attention to the emergent properties of the developing system under investigation and by a focus on the aspects of development of the nervous system that depend on interactions among its various elements, be they molecular, intracellular or multicellular. " As opposed to ignoring complexity or trying to wish it away, those of us who utilize a systems approach embrace the principle that complexity is what makes the nervous system special. We have come to recognize that wherever we look, we find interactions which are to be probed and eventually. understood. Even the so-called "simple systems", a term that has been used to describe many invertebrate preparations, are embraced under the above definition, since with further study it is becoming increasing clear that such systems are not as simple as once thought. We also include molecular genetics under the systems rubric. After all, genes regulate other genes which regulate others, and so it goes.
Unlike anything currently available in the market, Dr. Sally A. Moody and a team of world-renowned experts provide a groundbreaking view of developmental genetics that will influence scientific approaches in embryology, comparative biology, as well as the newly emerging fields of stem cell biology and regenerative medicine. Principles of Developmental Genetics highlights the intersection of developmental biology with new revolutionary genomic technologies, and details how these advances have accelerated our understanding of the molecular genetic processes that regulates development. This definitive resource provides researchers with the opportunity to gain important insights into the clinical applicability of emerging new technologies and animal model data. This book is a must-have for all researchers in genetics, developmental biology, regenerative medicine, and stem cell biology. • Includes new research not previously published in any other book on the molecular genetic processes that regulates development • Chapters present a broad understanding on the application of animal model systems, allowing researchers to better treat clinical disorders and comprehend human development • Relates the application of new technologies to the manipulation of stem cells, causes of human birth defects, and several human disease conditions • Each chapter includes a bulleted summary highlighting clinical aspects of animal models
Together with other volumes in this series, Volume 58 presents thoughtful and forward-looking articles on developmental biology and developmental medicine. Reviews include: * A role for endogenous electric fields in wound healing * The role of mitotic checkpoint in maintaining genomic stability * The regulation of oocyte maturation * Stem cells: A promising source of pancreatic islets for transplantation in type 1 diabetes * Differentiation potential of adipose derived adult stem (ASAS) cells The exceptional reviews in this volume of Current Topics in Developmental Biology will be valuable to both clinical and fundamental researchers, as well as students and other professionals who want an introduction to current topics in cellular and molecular approaches to developmental biology and clinical problems of aberrant development. * Series Editor Gerald Schatten is one of the leading minds in reproductive and developmental science * Presents major issues and astonishing discoveries at the forefront of modern developmental biology and developmental medicine * The longest-running forum for contemporary issues in developmental biology with over 30 years of coverage
As a result of the molecular genetic analysis of development similar mechanisms for the regulation of gene expression are found in a wide range of organisms. In "Development - the Molecular Genetic Approach" these common mechanisms as well as the specific events leading to a differentiated cell are described. Particular items treated are, for example, how asymmetry is achieved, how cell size is determined, how cell division is controlled, how cell lineage influences development, how cells know their position, and how cells communicate during development.
This text provides a broad but authoritative view of the cellular and molecular aspects of developmental neurobiology written by leaders in the field.
Developmental Neurobiology tells the extraordinary process of neural development by showing how the scientific discoveries were made and how the hypotheses evolved over time. Each chapter explores the specific mechanisms of development while highlighting the key experiments and methods used to make those discoveries—including descriptions of, and experiments utilizing, both invertebrate and vertebrate animal models. This distinctive approach provides the essential facts while strengthening the reader’s appreciation of the scientific method. Discussions of neurodevelopmental disorders and therapeutic approaches to them will captivate those interested in the more clinical aspects of the field. With its clear illustrations and easy-to-follow writing style, Developmental Neurobiology presents an accessible approach to neural development for undergraduate students.