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Review: Epigenetics in Organ Development

Regulation of cellular chromatin state: Insights from quiescence and differentiation

Surabhi Srivastava, Rakesh K. Mishra and Jyotsna Dhawan

The identity and functionality of eukaryotic cells is defined not just by their genomic sequence which remains constant between cell types, but by their gene expression profiles governed by epigenetic mechanisms. Epigenetic controls maintain and change the chromatin state throughout development, as exemplified by the setting up of cellular memory for the regulation and maintenance of homeotic genes in proliferating progenitors during embryonic development. Higher order chromatin structure in reversibly arrested adult stem cells also involves epigenetic regulation and in this review we highlight common trends governing chromatin states, focusing on quiescence and differentiation during myogenesis. Together, these diverse developmental modules reveal the dynamic nature of chromatin regulation providing fresh insights into the role of epigenetic mechanisms in potentiating development and differentiation.

Authors

Surabhi Srivastava Corresponding author: ssurabhi@ccmb.res.in

Centre for Cellular and Molecular Biology; Hyderabad, India

Rakesh K. Mishra

Centre for Cellular and Molecular Biology; Hyderabad, India

Jyotsna Dhawan

Centre for Cellular and Molecular Biology; Hyderabad, India