Description
Epigenetics and Development
Author: HEARD Edith
Language: English
Keywords
3D chromosome organization; 5hmC; 5mC; Cell cycle; Chromatin; Chromatin modifications; Collinearity; CpG island; Development; Development; Development; Differentiation; DNA methylation; DNA methylation; DNA synthesis; DNMT; Early embryo; Embryonic germ cells; Embryonic stem cells; Epigenetics; Epigenetics; Epigenome; Fertilization; Gametes; Gene expression; Genomic imprinting; Germline; Histone; Histone methylation; Histone modification; Histone modifications; Hox genes; HP1; Human; Hydroxymethylation; Inheritance; Mammals; Methylation; Methylation; Plant; Pluripotency; Pluripotency; Pluripotency; Polycomb; Polycomb proteins; Prepatterning; Primordial germ cell; Reprogrammation; Reprogramming; Reprogramming; Specification; TET; Transcription; Trithorax proteins; Zebrafish; Zygotic genome activation
352 p. · 15x22.8 cm · Hardback
Description
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This new volume of Current Topics in Developmental Biology covers epigenetics and development, with contributions from an international board of authors. The chapters provide a comprehensive set of reviews covering such topics as epigenetic marking of the zebrafish developmental program, functions of DNA methylation and hydroxymethylation in mammalian development, and reprogramming and the pluripotent stem cell cycle.
- X inactivation dynamics during development in different mammals
- Epigenetic decisions during early mammalian development
- DNA methylation dynamics during mammalian embryogenesis
- Epigenetic dynamics in zebrafish development
- The Hox clusters and epigenetics
- Epigenetic regulation in the mammalian germ line
- Chromatin dynamics and epigenetic changes during plant development
- Reprogramming
- Chromatin, transcription factors and gene regulation during gametogenesis and early embryogenesis
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- TBC
- Covers the area of epigenetics and development
- International board of authors
- Provides a comprehensive set of reviews covering such topics as epigenetic marking of the zebrafish developmental program, functions of DNA methylation and hydroxymethylation in mammalian development, and reprogramming and the pluripotent stem cell cycle
