This volume of "Methods in Cell Biology, " the second of two parts on the subject of zebrafish, provides a comprehensive compendium of laboratory protocols and reviews covering all the new methods developed since 1999.
* Details state-of-the art zebrafish protocols, delineating critical steps in the procedures as well as potential pitfalls
* Illustrates many techiques in full-color
* Summarizes the Zebrafish Genome Project

Due to its prolific reproduction and the external development of the transparent embryo, the zebrafish is the prime model for genetic and developmental studies, as well as research in genomics. While genetically distant from humans, nonetheless the vertebrate zebrafish has comparable organs and tissues that make it the model organism for study of vertebrate development. This book, one of twonew volumes in the "Reliable Lab Solutions "series dealing with zebrafish, brings together a robust and up-to-date collection of time-tested methods presented by the world s leading scientists. Culled from previously published chapters in "Methods in Cell Biology"and updated by the original authorswhere relevant, it providesa comprehensive collection of protocols describing the mostwidely usedtechniques relevant to the study of the cellular and developmental biology of zebrafish. The methodsin thisvolume were hand-selected by the editors, whose goal was to a provide ahandy and cost-effectivecollection offail-safe methods, tips, and tricks of the trade to both experienced researchers and more junior members in the lab.

* Provides busy researchers a quick reference for time-tested methods and protocols that really work, updated where possible by the original authors *Gives pragmatic wisdom to the non-specialist from experts in the field with years of experience with trial and error "

Hematopoiesis, or the process of blood formation, has been extensively studied at both basic and clinical levels. Human diseases such as thalassemia, immunodeficiency, and leukemia represent defects in this process. Approaches to treat these disorders have required a basic understanding of the biology of blood cells. For instance, hemapoietic stem cell replacement or bone marrow transplantation has been used to ameliorate disease. This volume focuses on hematopoiesis at a cellular and molecular level, and establishes the basis for clinical manipulation of hematopoietic cells for therapeutic benefit. In Part I, the cellular characteristics of progenitors and stem cells are explored. Emphasis is placed on purification of stem cells and both in vitro and in vivo assays. The regulation of normal and leukemis stem cells is illustrated. An excellent discussion of potential use of these cells for gene therapy concludes this section. Hemapoiesis is easily studied during embryogenesis. Part II develops the concept of the waves of hemapoiesis during development. Comparative hematology is making a major comeback as a field in the 1990's. One hope is that general principles of hematopoiesis will be established by studying many models and systems. Part III delves into critical factors that regulate hematopoiesis, including both intracellular and extracellular signals. Part IV and V describe lineage programs for myeloid and lymphoid lineages. These chapters are meant to be illustrative of the different cell fates, but are not exhaustive. Part VI examines the genetics of hematopoisis, particularly in animal models. The hematopoietic system is in constant contact with stromal cells and endothelial cells during development and in the adult. Evidence suggests that endothelial cells and blood cells may arise from a common progenitor, the hemangioblast. Part VII and VIII discuss the stromal and endothelial cells with the emphasis on their interaction with hematopoietic cells.