Growing evidence suggests that epigenetic mechanisms play a central role in stem cell biology and are vital for determining gene expression during cellular differentiation and governing mammalian development. In Stem Cell Epigenetics, leading international researchers examine how chromatin regulation and bona fide epigenetic mechanisms underlie stem cell renewal and differentiation. Authors also explore how the diversity of cell types, including the extent revealed by single cell omic approaches, is achieved, and how such processes may be reversed or managed via epigenetic reprogramming.Topics discussed include chromatin in pluripotency, stem cells and DNA methylation, histone modifications in stem cells and differentiation, higher-order chromatin conformation in pluripotent cells, stem cells and cancer, epigenetics and disease modeling, brain organoids from pluripotent cells, transcriptional regulation in stem cells and differentiation, non-coding RNAs in pluripotency and early differentiation, and diseases caused by epigenetic alterations in stem cells. Additionally, the book discusses the potential implementation of stem cell epigenetics in drug discovery, regenerative medicine, and disease treatment. Stem Cell Epigenetics will provide researchers and physicians with a state-of-the-art map to orient across the frontiers of this fast-evolving field.
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Table of Contents
1. Epigenetic processes and DNA repair in embryonic stem cells2. Stem cell epigenomics
3. A change in culture; modelling human germ cell development in vitro
4. Higher order chromatin structure
5. Polycomb
6. Mitotic bookmarking by transcription factors and the preservation of pluripotency
7. Roles and regulation of endogenous retroviruses in pluripotency and early development
8. Single stem cell biology
9. Stem cell chromatin plasticity
10. Transcriptional and epigenetic regulatory mechanisms in glioblastoma
11. 3D Models of the Human Brain
12. Stem cell epigenetic proteomics