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Human embryonic genome activation initiates at the one-cell stage

Maki Asami, Brian Lam, Marcella Ma, Kara Rainbow, Stefanie Braun, Matthew VerMilyea, Giles S.H. Yeo, Anthony C.F. Perry

2021Cell stem cell130 citationsDOIOpen Access PDF

Abstract

In human embryos, the initiation of transcription (embryonic genome activation [EGA]) occurs by the eight-cell stage, but its exact timing and profile are unclear. To address this, we profiled gene expression at depth in human metaphase II oocytes and bipronuclear (2PN) one-cell embryos. High-resolution single-cell RNA sequencing revealed previously inaccessible oocyte-to-embryo gene expression changes. This confirmed transcript depletion following fertilization (maternal RNA degradation) but also uncovered low-magnitude upregulation of hundreds of spliced transcripts. Gene expression analysis predicted embryonic processes including cell-cycle progression and chromosome maintenance as well as transcriptional activators that included cancer-associated gene regulators. Transcription was disrupted in abnormal monopronuclear (1PN) and tripronuclear (3PN) one-cell embryos. These findings indicate that human embryonic transcription initiates at the one-cell stage, sooner than previously thought. The pattern of gene upregulation promises to illuminate processes involved at the onset of human development, with implications for epigenetic inheritance, stem-cell-derived embryos, and cancer.

Topics & Concepts

BiologyEmbryonic stem cellTranscription (linguistics)EpigeneticsGene expressionGeneGeneticsRegulation of gene expressionEmbryoCell biologyLinguisticsPhilosophyPluripotent Stem Cells ResearchEpigenetics and DNA MethylationRenal and related cancers