First published online October 26, 2007
Development 134, 2203e (2007)
© The Company of Biologists Limited
Gene regulatory networks: maternal code deciphered
Maternal factors initiate development in many animal embryos but the
zygotic gene combinations activated by these factors are poorly understood.
Now, on p. 4023,
Rothbächer and co-workers reveal that the maternal transcription factor
Ci-GATAa (orthologue of vertebrate GATA4, 5 and 6) controls the ectodermal
regulatory network in Ciona intestinalis. The ectoderm, which
develops into epidermis and nervous tissue, occupies the animal half of
ascidian embryos. The researchers report that Ci-GATAa activity is initially
found throughout the embryo before being repressed in the vegetal hemisphere
by maternal ß-catenin. In the animal hemisphere, Ci-GATAa first activates
the pan-ectodermal gene Ci-fog. After neural induction, it also
activates Ci-otx in neural progenitor cells. The researchers show
that this activation pattern is achieved by Ci-GATAa and maternal Ets1/2
binding to the Ci-otx enhancer and synergistically activating
Ci-otx in neural territories; in non-neural territories, maternal
Ets1/2 prevents Ci-otx activation by Ci-GATAa. Overall, these results
identify a precise combinatorial code of maternal factors that initiates
ectodermal development in Ciona.
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Related articles in Development:
- A combinatorial code of maternal GATA, Ets and ß-catenin-TCF transcription factors specifies and patterns the early ascidian ectoderm
- Ute Rothbächer, Vincent Bertrand, Clement Lamy, and Patrick Lemaire
Development 2007 134: 4023-4032.
[Abstract]
[Full Text]
