During mammalian pre-implantation embryo development, when the first asymmetry emerges and how it develops to direct distinct cell fates remain longstanding questions. Here, by analyzing single-blastomere transcriptome data from mouse and human pre-implantation embryos, we revealed that the initial blastomere-to-blastomere biases emerge as early as the first embryonic cleavage division, following a binomial distribution pattern. The subsequent zygotic transcriptional activation further elevated overall blastomere-to-blastomere biases during the two- to 16-cell embryo stages. The trends of transcriptional asymmetry fell into two distinct patterns: for some genes, the extent of asymmetry was minimized between blastomeres (monostable pattern), whereas other genes, including those known to be lineage specifiers, showed ever-increasing asymmetry between blastomeres (bistable pattern), supposedly controlled by negative or positive feedbacks. Moreover, our analysis supports a scenario in which opposing lineage specifiers within an early blastomere constantly compete with each other based on their relative ratio, forming an inclined ‘lineage strength’ that pushes the blastomere onto a predisposed, yet flexible, lineage track before morphological distinction.
Author contributions
Q.C. and J.S. conceived the project and analyzed the single-cell datasets. J.S., X.Z. and Y.T. constructed the model. Q.C., J.Q., F.T., Y.Z., Y.T., Q.Z. and E.D. contributed to the development and analysis of the model. X.L. performed mouse embryo related experiments. Q.C., J.S. and X.Z. contributed to the writing of the manuscript. Y.T., Q.Z. and E.D. supervised the whole project and proofread the manuscript.
Funding
This research is supported by the National Basic Research Program of China [2015CB943000, 2011CB944401];the Strategic Priority Research Program of the Chinese Academy of Sciences [XDA01000000, XDA04020202-20]; the National Natural Science Foundation of China [81490741, 31200879, 31300957, 11401562]; and a Fellowship of Youth Innovation Promotion Association, Chinese Academy of Sciences [201306 to Q.C.].
