Abstract
Maternal factors initiate the zygotic developmental program in animal embryos. In embryos of the chordate, Ciona intestinalis, three maternal factors—Gata.a, β-catenin, and Zic-r.a—are required to establish three domains of gene expression at the 16-cell stage; the animal hemisphere, vegetal hemisphere, and posterior vegetal domains. Here, we show how the maternal factors establish these domains. First, only β-catenin and its effector transcription factor, Tcf7, are required to establish the vegetal hemisphere domain. Second, genes specifically expressed in the posterior vegetal domain have additional repressive cis-elements that antagonize the activity of β-catenin/Tcf7. This antagonizing activity is suppressed by Zic-r.a, which is specifically localized in the posterior vegetal domain and binds to DNA indirectly through the interaction with Tcf7. Third, Gata.a directs specific gene expression in the animal hemisphere domain, because β-catenin/Tcf7 weakens the Gata.a-binding activity for target sites through a physical interaction in the vegetal cells. Thus, repressive regulation through protein-protein interactions among the maternal transcription factors is essential to establish the first distinct domains of gene expression in the chordate embryo.
Highlights
In animal embryos, maternal information initiates the zygotic developmental program
The present study demonstrated that these localized maternal factors interact with one another through a fourth non-localized transcription factor, Tcf7, and negatively regulate one another
To understand how maternally expressed β-catenin, Gata.a, and Zic-r.a regulate gene expression at the 16-cell stage, we re-examined expression of genes that are activated at the 16-cell stage in morphant embryos of either of β-catenin, Gata.a, or Zic-r.a
Summary
Maternal information initiates the zygotic developmental program. Maternal factors are often localized to set up pre-patterns. This mechanism has been extensively studied in embryos of invertebrates including sea urchin and flies [1, 2]. In syncytium embryos of Drosophila, maternally localized factors define embryonic axes and initiate specific gene expression patterns from the zygotic genome [1]. Several localized maternal factors are known in vertebrates [3,4,5,6,7]. The whole system by which localized maternal factors establish the initial zygotic gene expression patterns is not yet fully understood
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