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Time space and single-cell resolved tissue lineage trajectories and laterality of body plan at gastrulation

Ran Wang, Xianfa Yang, Jiehui Chen, Lin Zhang, Jonathan A. Griffiths, Guizhong Cui, Yingying Chen, Yun Qian, Guangdun Peng, Jinsong Li, Liantang Wang, John C. Marioni, Patrick Tam, Naihe Jing

2023Nature Communications32 citationsDOIOpen Access PDF

Abstract

Understanding of the molecular drivers of lineage diversification and tissue patterning during primary germ layer development requires in-depth knowledge of the dynamic molecular trajectories of cell lineages across a series of developmental stages of gastrulation. Through computational modeling, we constructed at single-cell resolution, a spatio-temporal transcriptome of cell populations in the germ-layers of gastrula-stage mouse embryos. This molecular atlas enables the inference of molecular network activity underpinning the specification and differentiation of the germ-layer tissue lineages. Heterogeneity analysis of cellular composition at defined positions in the epiblast revealed progressive diversification of cell types. The single-cell transcriptome revealed an enhanced BMP signaling activity in the right-side mesoderm of late-gastrulation embryo. Perturbation of asymmetric BMP signaling activity at late gastrulation led to randomization of left-right molecular asymmetry in the lateral mesoderm of early-somite-stage embryo. These findings indicate the asymmetric BMP activity during gastrulation may be critical for the symmetry breaking process.

Topics & Concepts

GastrulationMesodermEpiblastGerm layerBiologyTranscriptomeEmbryoCell biologyNODALBody planGeneticsEmbryogenesisEmbryonic stem cellGeneGene expressionInduced pluripotent stem cellSingle-cell and spatial transcriptomicsCongenital heart defects researchPluripotent Stem Cells Research