Journal
CELL CYCLE
Volume 10, Issue 11, Pages 1731-1738Publisher
TAYLOR & FRANCIS INC
DOI: 10.4161/cc.10.11.15816
Keywords
Oct4; Nanog; Cdx2; Eomes; chick; trophectoderm; gene regulatory; networks; comparative genomics
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Funding
- Spanish Ministry of Science and Innovation [BFU2008-00838, CONSOLIDER-25120]
- Regional Government of Madrid [CAM S-SAL-0190-2006]
- Pro-CNIC Foundation
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Early mammalian development is characterized by a highly specific stage, the blastocyst, by which embryonic and extraembryonic lineages have been determined, but pattern formation has not yet begun. The blastocyst is also of interest because cell precursors of the embryo proper retain for a certain time the capability to generate all the cell types of the adult animal. This embryonic pluripotency is established and maintained by a regulatory network under the control of a small set of transcription factors, comprising Oct4, Sox2 and Nanog. This network is largely conserved in eutherian mammals, but there is scarce information about how it arose in vertebrates. We have analyzed the conservation of gene regulatory networks controlling blastocyst lineages and pluripotency in the mouse by comparison with the chick. We found that few of elements of the network are novel to mammals; rather, most of them were present before the separation of the mammalian lineage from other amniotes, but acquired novel expression domains during early mammalian development. Our results strongly support the hypothesis that mammalian blastocyst regulatory networks evolved through rewiring of pre-existing components, involving the co-option and duplication of existing genes and the establishment of new regulatory interactions among them.
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