The maternal-to-zygotic transition (MZT) is an essential developmental turning point in both plants and animals. In plants, the timing of MZT and parental contributions to the zygotic transcriptome remain unclear. Here, by overcoming technical limitations, we characterize the Arabidopsis egg cell, zygote, and embryo transcriptomes across multiple stages. Using these datasets, we demonstrate that MZT occurs during zygote development and is a two-step interrelated process of rapid maternal transcript degradation followed by large-scale de novo transcription. Parental contributions to the zygotic transcriptome are stage-dependent: the spherical zygote is characterized by a maternally dominated transcriptome, whereas the elongated zygote transcriptome shows equal parental contributions. Our results show that plant MZT is similar to that in animals, showing a typical two-step process, and that zygotic genome activation is required for zygote elongation and division, indicating that de novo transcripts are essential for the establishment of zygote polarity and embryogenesis promotion. CAS, China) for their kind offer of DD45::GFP marker line in Col-0 and Ler background, respectively. AUTHOR CONTRIBUTIONS P.Z. and M.-x.S. designed the experiments. P.Z. and X.Z. isolated cells for RNA-seq and performed in vitro ovule microculture. K.S. and T.C. performed vector construction and plant transformation. X.Z., K.S., and Z.L. performed gene expression analyses and reporter line analysis. P.Z., D.L., Y.C., X.P, and M.-x.S. analyzed the data. P.Z. and M.-x.S. wrote the manuscript. All authors discussed the results and agreed on the manuscript before submission.
We applied suppression subtractive hybridization and mirror orientation selection to compare gene expression profiles of isolated Nicotiana tabacum cv SR1 zygotes and egg cells. Our results revealed that many differentially expressed genes in zygotes were transcribed de novo after fertilization. Some of these genes are critical to zygote polarity and pattern formation during early embryogenesis. This suggests that the transcriptome is restructed in zygote and that the maternal-to-zygotic transition happens before the first zygotic division, which is much earlier in higher plants than in animals. The expressed sequence tags used in this study provide a valuable resource for future research on fertilization and early embryogenesis.
During plant embryogenesis, once the suspensor organ of the plant embryo has fulfilled its role, it is removed by programmed cell death (PCD). The pro-death cathepsin protease NtCP14 initiates this PCD, but is inhibited by the cystatin NtCYS until the suspensor function is fulfilled.
Autophagy is an evolutionarily conserved mechanism in both animals and plants, which has been shown to be involved in various essential developmental processes in plants. Nicotiana tabacum is considered to be an ideal model plant and has been widely used for the study of the roles of autophagy in the processes of plant development and in the response to various stresses. However, only a few autophagy-related genes (ATGs) have been identified in tobacco up to now. Here, we identified 30 ATGs belonging to 16 different groups in tobacco through a genome-wide survey. Comprehensive expression profile analysis reveals an abroad expression pattern of these ATGs, which could be detected in all tissues tested under normal growth conditions. Our series tests further reveal that majority of ATGs are sensitive and responsive to different stresses including nutrient starvation, plant hormones, heavy metal and other abiotic stresses, suggesting a central role of autophagy, likely as an effector, in plant response to various environmental cues. This work offers a detailed survey of all ATGs in tobacco and also suggests manifold functions of autophagy in both normal plant growth and plant response to environmental stresses.
SUMMARYThe maternal-to-zygotic transition (MZT) is characterized by the turnover of zygote development from maternal to zygotic control, and has been extensively studied in animals. A majority of studies have suggested that early embryogenesis is maternally controlled and that the zygotic genome remains transcriptionally inactive prior to the MZT. However, little is known about the MZT in higher plants, and its timing and impact remain uncharacterized. Here, we constructed cDNA libraries from tobacco (Nicotiana tabacum) egg cells, zygotes and two-celled embryos for gene expression profiling analysis, followed by RT-PCR confirmation. These analyses, together with experiments using zygote microculture coupled with transcription inhibition, revealed that a marked change in transcript profiles occurs approximately 50 h after fertilization, and that the MZT is initiated prior to zygotic division in tobacco. Although maternal transcripts deposited in egg cells support several early developmental processes, they appear to be insufficient for zygotic polar growth and subsequent cell divisions. Thus, we propose that de novo transcripts are probably required to trigger embryogenesis in later zygotes in tobacco.
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