摘要
During mammalian preimplantation development,a totipotent zygote undergoes several cell cleavages and two rounds of cell fate determination,ultimately forming a mature blastocyst.Along with compaction,the establishment of apicobasal cell polarity breaks the symmetry of an embryo and guides subsequent cell fate choice.Although the lineage segregation of the inner cell mass(ICM)and trophectoderm(TE)is the first symbol of cell differentiation,several molecules have been shown to bias the early cell fate through their inter-cellular variations at much earlier stages,including the 2-and 4-cell stages.The underlying mechanisms of early cell fate determination have long been an important research topic.In this review,we summarize the molecular events that occur during early embryogenesis,as well as the current understanding of their regulatory roles in cell fate decisions.Moreover,as powerful tools for early embryogenesis research,single-cell omics techniques have been applied to both mouse and human preimplantation embryos and have contributed to the discovery of cell fate regulators.Here,we summarize their applications in the research of preimplantation embryos,and provide new insights and perspectives on cell fate regulation.
基金
supported by grants from the National Natural Science Foundation of China(Grant Nos.32121001 to YunGui Yang,92153303 to Ying Yang)
CAS for Young Scientists in Basic Research Project(Grant No.YSBR-073 to Ying Yang)
the Strategic Priority Research Program of CAS(Grant No.XDA16010501 to Yun-Gui Yang)
the National Key R&D Program of China(Grant No.2018YFA0801200 to Ying Yang)
the Youth Innovation Promotion Association of CAS(Grant No.Y2022040 to Ying Yang)
the Beijing Nova Program,China(Grant Nos.Z201100006820104 and 20220484210 to Ying Yang).
