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Paper detail

Restoring information in aged gene regulatory networks by single knock-ins

A hallmark of aging is loss of information in gene regulatory networks. These networks are tightly connected, raising the question of whether information could be restored by perturbing single genes. We develop a simple theoretical framework for information transmission in gene regulatory networks that describes the information gained or lost when a gene is "knocked in" (exogenously expressed). Applying the framework to gene expression data from muscle cells in young and old mice, we find that single knock-ins can restore network information by up to 10%. Our work advances the study of information flow in networks and identifies potential gene targets for rejuvenation.

preprint2026arXivOpen access
Ryan LeFebreFabrisia AmbrosioAndrew Mugler
Biological PhysicsMolecular Networks
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Ryan LeFebreFabrisia AmbrosioAndrew Mugler

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