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Nov 22, 2022

‘Primordial super-enhancers’ provide early snapshot of the mechanisms that allowed for multicellularity

Posted by in categories: biotech/medical, genetics

New research at the University of Chicago has found that the same machinery used by mammalian cells to drive cellular differentiation also plays a critical role in activating genes in yeast in response to environmental stress.

The results, which were published in Molecular Cell, suggest that these machines, known as transcriptional condensates, are an ancient, conserved tool used by to promote high level for over a billion years. The findings are helping to not only better explain how cells respond dynamically to environmental cues but also have implications for understanding human diseases such as cancer and neurodegeneration.

The study extends existing research on transcriptional condensates in into yeast and their heat shock response—how cells respond to high temperatures. “The heat shock response is ancient,” said David Pincus, Ph.D., Assistant Professor of Molecular Genetics and Cell Biology at UChicago. “This response existed long before there were people—long before there were even yeast. It predates the split between prokaryotes and eukaryotes, so it’s a really fundamental and important cellular response.”

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