Abstract
Commonly referred to as the maternal-to-zygotic transition, the shift of developmental control from maternal-to-zygotic genomes is a key event during animal and plant embryogenesis. Together with the degradation of parental gene products, the increased transcriptional activities of the zygotic genome remodels the early embryonic transcriptome during this transition. Although evidence from multiple flowering plants suggests that zygotes become transcriptionally active soon after fertilization, the timing and developmental requirements of zygotic genome activation in Arabidopsis thaliana (Arabidopsis) remained a matter of debate until recently. In this report, we optimized an expansion microscopy technique for robust immunostaining of Arabidopsis ovules and seeds. This enabled the detection of marks indicative of active transcription in zygotes before the first cell division. Moreover, we employed a live-imaging culture system together with transcriptional inhibitors to demonstrate that such active transcription is physiologically required in zygotes and early embryos. Our results indicate that zygotic genome activation occurs soon after fertilization and is required for the initial zygotic divisions in Arabidopsis.
Highlights
The transition of developmental control from parental-to-zygotic genomes is a pivotal event during animal and plant development
One model proposed that Arabidopsis zygotes are transcriptionally quiescent[22] and early embryos mostly rely on maternal gene products for growth and division[23,24,25,26,27]
Optimization of the expansion microscopy protocol (ExM) fluorescent immunostaining technique for seeds enabled the robust detection of RNAPII Ser2P and H3K36me[3] in zygotes
Summary
The transition of developmental control from parental-to-zygotic genomes is a pivotal event during animal and plant development. Histological and molecular evidence in Hyacinthus orientalis (hyacinth)[5,6], Nicotiana tabacum (tobacco)[7,8], Oryza sativa (rice)[9,10,11,12,13], Triticum aestivum (wheat)[14,15] and Zea mays (maize)[16,17,18,19,20] altogether indicate that large-scale transcriptional activities increase in zygotes after fertilization and prior to the first division These results suggest that, similar to animals, plant zygotic genomes may transition from a transcriptionally quiescent to active state. We provide independent evidence by expansion microscopy and live-cell imaging to demonstrate that transcriptional activities are markedly increased soon after fertilization in Arabidopsis and that zygotic transcription is essential for the initial embryonic cell divisions
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