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This is the first of three planned volumes in the Methods in Enzymology series on the topic of stem cells. This volume is a unique anthology of stem cell techniques written by experts from the top laboratories in the world. The contributors not only have hands-on experience in the field but often have developed the original approaches that they share with great attention to detail. The chapters provide a brief review of each field followed by a "cookbook and handy illustrations. The collection of protocols includes the isolation and maintenance of stem cells from various species using "conventional and novel methods, such as derivation of ES cells from single blastomeres, differentiation of ...
Recently, stem cells have been drawing increasing interest in basic and translational research that aims to understand stem cell biology and generate new therapies for various disorders. Many stem cells can be cultured in 2D relatively easily using tissue culture plastic. However, many of these cultures do not represent the natural conditions of stem cells in the body. In the body, microenvironments include numerous supporting cells and molecules. Therefore, researchers and clinicians have sought ideal stem cell preparations for basic research and clinical applications, which may be attainable through 3D culture of stem cells. The 3D cultures mimic the conditions of the natural environment o...
Topic Editor Prof. Oliver Distler received financial support from Actelion, Bayer, Boehringer Ingelheim, Mitsubishi Tanabe Pharma companies. All other Topic Editors declare no competing interests with regards to the Research Topic subject.
A wide-ranging collection of readily reproducible methods for performing nuclear reprogramming by nuclear transfer in several different species, by fusion through both chemical treatment and electrically shocking cells, and by in vivo treatment of cells with cell extracts. Several methods of monitoring nuclear reprogramming are also presented, including the use of transgenic markers, activation of telomerase as an ES-specific marker, light and electron microscopic observation of structural changes in the nucleus, and verification of surface marker expression and the differentiation potential of stem cells. Biochemical methods are provided for the examination of chromatin protein modifications, nucleosomal footprinting, transcription factor binding, and the study of DNA methylation changes both at the specific locus level and at the level of the whole nucleus.
This is a fast-moving field, and these detailed methods will help drive advances in stem cell research. The editors have hand selected step-by-step methods from researchers with extensive reputations and expertise.This volume, as part of the Reliable Lab Solutions series, delivers busy researchers a handy, time-saving source for the best methods and protocols in stem cells. - Provides powerful research opportunities for those interested in perusing work in pluripotent stem cells, disease modeling, and other aspects of basic stem cell research - Refines, organizes and updates popular methods from flagship series, Methods in Enzymology - Highlights top downloads, enhanced with author tips and tricks and pitfalls to avoid
The groundbreaking isolation of embryonic stem cells (or 'ES cells') of the mouse in the early 1980s triggered a sustained expansion of global research into their exploitation. This led to the routine genetic engineering of the mouse and revolutionised our understanding of biological processes in the context of the whole animal. ES cell biology remains a crucial and growing area of research with far-reaching implications for developmental and comparative biology as well as for human health. This book serves as a primer to ES cells, their derivation and experimental manipulation. It contains a broad compendium of methods of direct relevance to both graduate students and specialist researchers...