Alexander L Starr, Toshiya Nishimura, Kyomi J Igarashi, Chihiro Funamoto, Hiromitsu Nakauchi, Hunter B Fraser
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Abstract
A long-standing question in biology is the extent to which cells function autonomously as opposed to requiring interactions with other cells or environmental factors. Here, we develop a framework to use interspecies chimeras to precisely decompose evolutionary divergence in any cellular trait into cell-intrinsic and cell-extrinsic components. Applying this framework to thousands of gene expression levels in reciprocal rat-mouse chimeras, we found that most divergence is cell intrinsic, though extrinsic factors also play an integral role. For example, cell-extrinsic regulation of a transcription factor can propagate to its target genes, leading to cell-type-specific extrinsic regulation of both their mRNA and their protein levels. We also show that imprinted genes are dramatically misexpressed in chimeras, suggesting a mismatch between rapidly evolving intrinsic and extrinsic imprinting mechanisms. Overall, our conceptual framework opens up new avenues to investigate the mechanistic basis of the evolution, development, and regulation of myriad cellular traits in any multicellular organism.
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