Sara‐Jane Dunn scite author profile

During differentiation and reprogramming, new cell identities are generated by reconfiguration of gene regulatory networks. Here, we combined automated formal reasoning with experimentation to expose the logic of network activation during induction of naïve pluripotency. We find that a Boolean network architecture defined for maintenance of naïve state embryonic stem cells (ESC) also explains transcription factor behaviour and potency during resetting from primed pluripotency. Computationally identified gene activation trajectories were experimentally substantiated at single‐cell resolution by RT–qPCR. Contingency of factor availability explains the counterintuitive observation that Klf2, which is dispensable for ESC maintenance, is required during resetting. We tested 124 predictions formulated by the dynamic network, finding a predictive accuracy of 77.4%. Finally, we show that this network explains and predicts experimental observations of somatic cell reprogramming. We conclude that a common deterministic program of gene regulation is sufficient to govern maintenance and induction of naïve pluripotency. The tools exemplified here could be broadly applied to delineate dynamic networks underlying cell fate transitions.

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Entropy sorting of single-cell RNA sequencing data reveals the inner cell mass in the human pre-implantation embryo

Radley

Corujo-Simon

Nichols

et al. 2023

Stem Cell Reports

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Computational Stem Cell Biology: Open Questions and Guiding Principles

et al. 2021

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Sara‐Jane Dunn

A common molecular logic determines embryonic stem cell self‐renewal and reprogramming

Entropy sorting of single-cell RNA sequencing data reveals the inner cell mass in the human pre-implantation embryo

Computational Stem Cell Biology: Open Questions and Guiding Principles

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