Download Free Zebrafish In Development And Disease Book in PDF and EPUB Free Download. You can read online Zebrafish In Development And Disease and write the review.

There are only a few vertebrate systems that can be used to model human diseases for biomedical discovery. The zebrafish model provides key advantages over existing models. Their externally developing embryos provide high-throughput non-invasive imaging, chemical screening, forward and reverse genetics, and their regeneration capacity make zebrafish a valuable system for novel discovery. Developmental studies using zebrafish has influenced discoveries in many human health-related conditions. This Research Topic covers all aspects of zebrafish studies, providing developmental mechanisms to human health conditions. The aim of the Research Topic was to foster a platform to bring all levels of zebrafish research including but not limited to development, disease, regeneration, drug screening, bioinformatics and Omics studies.
Zebrafish at the Interface of Development and Disease Research presents the latest on the shared pathways that govern development and contribute to disease. Zebrafish have traditionally been used to study vertebrate development, providing interesting data on the developmental processes and genes that are implicated in disease. This new release in the series contains informative discussions on congenital heart defects in zebrafish, the use of zebrafish in studying kidney development and disease, and muscle development, homeostasis and disease in zebrafish. Each chapter interweaves the study of zebrafish development and its application to the immune system, the kidney, liver, heart and others. - The subject matter is unique - no single volume has pulled together the theme of development and disease with zebrafish as a centerpiece - Leading experts in the field - all of them running zebrafish focused labs for each chapter
Zebrafish are widely considered an excellent model system for vertebrate development. The embryo is transparent, thereby enabling visualization and use of labelling and transgenic approaches. Moreover, because of the ease of inducing new mutations in zebrafish and similarity with the human genome, this organism may be used effectively for disease studies. For example, mutant zebrafish are being utilized for testing drugs that will combat a range of human diseases, from Alzheimer's and cancer to kidney failure and congenital heart disease. For the first time, this atlas provides the research community with a complete reference for zebrafish anatomy spanning the early embryo all the way to adulthood. The authors employ the technique of optical projection tomography (OPT), and offer a series of sections in multiple planes from each sample. The contents are organized by developmental stages, with over 200 images that contain annotations describing anatomical structures relevant to development. In addition, chapters feature explanatory text that highlights major developments in the zebrafish during each stage. - Provides the first comprehensive anatomical resource that covers all regions of zebrafish anatomy from the larval period to adulthood - The over 200 images include explanatory notes - Each chapter contains a concise description of key anatomical features that factor in zebrafish development - Despite many years of use as a model system, until now there has never been a guide to zebrafish at the larval stage - The book's website contains a database of over 10k sections from different regions as well as 3D images that are interactive
The Zebrafish in Biomedical Research: Biology, Husbandry, Diseases, and Research Applications is a comprehensive work that fulfills a critical need for a thorough compilation of information on this species. The text provides significant updates for working vivarium professionals maintaining zebrafish colonies, veterinarians responsible for their care and well-being, zoologists and ethologists studying the species, and investigators using the species to gain critical insights into human physiology and disease. As the zebrafish has become an important model organism for the study of vertebrate development and disease, organ function, behavior, toxicology, cancer, and drug discovery, this book presents an important resource for future research. - Presents a complete view of the zebrafish, covering their biology, husbandry, diseases and research applications - Includes the work of world-renowned authors - Provides the first authoritative and comprehensive treatment of zebrafish in biomedical research as part of the ACLAM series
The collection of systems represented in Sourcebook of genomic programs, although this work is certainly well Models for Biomedical Research is an effort to re?ect the represented and indexed. diversity and utility of models that are used in biomedicine. Some models have been omitted due to page limitations That utility is based on the consideration that observations and we have encouraged the authors to use tables and made in particular organisms will provide insight into the ? gures to make comparisons of models so that observations workings of other, more complex, systems. Even the cell not available in primary publications can become useful to cycle in the simple yeast cell has similarities to that in the reader. humans and regulation with similar proteins occurs. We thank Richard Lansing and the staff at Humana for Some models have the advantage that the reproductive, guidance through the publication process. mitotic, development or aging cycles are rapid compared As this book was entering production, we learned of the with those in humans; others are utilized because individual loss of Tom Lanigan, Sr. Tom was a leader and innovator proteins may be studied in an advantageous way and that in scienti?c publishing and a good friend and colleague to have human homologs. Other organisms are facile to grow all in the exploratory enterprise. We dedicate this book to in laboratory settings or lend themselves to convenient analy- his memory. We will miss him greatly.
The zebrafish embryo has now been well established as an organism of choice for the genetic and cell biological basis of vertebrate development. Large-scale forward genetic screens together with reverse genetic tools have resulted in a flood of new information on the regulation of vertebrate development. Furthermore, the unique transparency of the zebrafish embryo allows unprecedented access to cells and tissues and many important discoveries on gene function have already been made using live imaging techniques in this organism. This book successfully brings together state-of-the-art methodologies of live imaging, such as the use of fluorescence correlation spectroscopy (FCS), that will be useful for investigators in the field of developmental biology to address their favorite problem using cell biological approaches in the zebrafishOne of the key reasons that has made the zebrafish such a popular vertebrate model is its transparency and its potential for high-resolution cell biology and imaging. However, there is no comprehensive and up-to-date guide to the new “live imaging” tools that can now be used in the zebrafish. Furthermore, there are many new microscopy methods that have been adapted for use in zebrafish, and this book can be a good guide even for scientists already familiar with the imaging advantages of this model.
The zebrafish model organism is an important tool used to study normal developmental biology, genetic diseases and the influences of environmental toxins. New biotechnologies are being applied to the model system to elucidate biological and pathophysiological mechanisms. The zebrafish model is used to study various cellular, physiological and system biology problems. The zebrafish has various advantages for study, as the organism is simpler than that of most other vertebrates; however, there is also a high degree of conservation with the other vertebrates. This Special Issue of Biomedicines, entitled "Zebrafish Models in Development and Disease", highlights the extraordinary capabilities of the model that can help us to understand biological complexity in a normal or diseased state. The model will continue to grow and contribute to biomedical knowledge in the future.
Development of the heart is a complex process and can lead to serious congenital disease if the process goes awry. This book provides a detailed description of the cell lineages involved in heart development and how their migration and morphogenesis are controlled. It also examines the genetic and environmental bases for congenital heart disease and how model systems are revealing more about the processes involved. Topics covered in this essential volume include: - Anatomy of a Developing Heart - Genetic and Epigenetic Control of Heart Development - Development of the Cardiac Conduction System - Genetic Basis of Human Congenital Heart Disease - In Vivo and In Vitro Genetic Models of Congenital Heart Disease
Zebrafish are widely considered an excellent modelsystem for vertebrate development. The embryo is transparent, thereby enabling visualization and use of labelling and transgenic approaches. Moreover, because of the ease of inducing new mutations in zebrafish and similarity with the human genome, this organism may be used effectively for disease studies. For example, mutant zebrafish are being utilized for testing drugs that will combat a range of human diseases, from Alzheimer's and cancer to kidney failure and congenital heart disease. For the first time, this atlas provides the research community with a complete reference for zebrafish anatomy spanning the early embryo all the way to adulthood. The authors employ the technique of optical projection tomography (OPT), and offer a series of sections in multiple planes from each sample. The contents are organized by developmental stages, with over 200 images that contain annotations describing anatomical structures relevant to development. In addition, chapters feature explanatory text that highlights major developments in the zebrafish during each stage. Provides the first comprehensive anatomical resource that covers all regions of zebrafish anatomy from the larval period to adulthoodThe over 200 images include explanatory notesEach chapter contains a concise description of key anatomical features that factor in zebrafish developmentDespite many years of use as a model system, until now there has never been a guide to zebrafish at the larval stageThe book's website contains a database of over 10k sections from different regions as well as 3D images that are interactive"