Abstract
How chromatin dictates cell differentiation is an intriguing question in developmental biology. Here, a reporter gene integrated throughout the genome was used as a sensor to map the chromatin activity landscape in lineage-resolved cells during C. elegans embryogenesis. Single-cell analysis of chromatin dynamics across critical dimensions of cell differentiation was performed, including lineage, tissue, and symmetry. During lineage progression, chromatin gradually diversifies in general and exhibits switch-like changes following specific cell division, which is predictive of anterior-posterior fate asymmetry. Upon tissue differentiation, chromatin of cells from distinct lineages converge to tissue-specific states but retain “memory” of each cell’s lineage history, which contributes to intra-tissue heterogeneity. However, cells with a morphologically left-right symmetric organization utilize a predetermination chromatin strategy to program analogous regulatory states in early progenitor cells. Additionally, chromatin co-regulation drives the functional coordination of the genome. Collectively, this work reveals the role of multidimensional chromatin regulation in cell differentiation.
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