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Analyzing embryo dormancy at single-cell resolution reveals dynamic transcriptional responses and activation of integrin-Yap/Taz prosurvival signaling

Rui Chen, Rui Fan, Fei Chen, Niraimathi Govindasamy, Heike Brinkmann, Martin Stehling, Ralf H. Adams, Hyun‐Woo Jeong, Ivan Bedzhov

2024Cell stem cell17 citationsDOIOpen Access PDF

Abstract

Embryonic diapause is a reproductive adaptation that enables some mammalian species to halt the otherwise continuous pace of embryonic development. In this dormant state, the embryo exploits poorly understood regulatory mechanisms to preserve its developmental potential for prolonged periods of time. Here, using mouse embryos and single-cell RNA sequencing, we molecularly defined embryonic diapause at single-cell resolution, revealing transcriptional dynamics while the embryo seemingly resides in a state of suspended animation. Additionally, we found that the dormant pluripotent cells rely on integrin receptors to sense their microenvironment and preserve their viability via Yap/Taz-mediated prosurvival signaling.

Topics & Concepts

BiologyCell biologyEmbryonic stem cellIntegrinEmbryoSignal transductionCellGeneticsGeneSingle-cell and spatial transcriptomicsRNA Research and SplicingCell Adhesion Molecules Research
Analyzing embryo dormancy at single-cell resolution reveals dynamic transcriptional responses and activation of integrin-Yap/Taz prosurvival signaling | Litcius