Ontology highlight
ABSTRACT: Background
In Xenopus early embryogenesis, various genes are involved with mesoderm formation. In particular, dorsal mesoderm contains the organizer region and induces neural tissues through the inhibition of bone morphogenetic protein (BMP) signaling. In our initial study to identify novel genes necessary for maintaining the undifferentiated state, we unexpectedly revealed mesoderm-inducing activity for mNanog in Xenopus.Methodology/principal findings
The present series of experiments investigated the effect of mNanog gene expression on Xenopus embryo. Ectopic expression of mNanog induced dorsal mesoderm gene activity, secondary axis formation, and weakly upregulated Activin/nodal signaling. The injection of mNanog also effectively inhibited the target genes of BMP signaling, while Xvent2 injection downregulated the dorsal mesoderm gene expression induced by mNanog injection.Conclusions/significance
These results suggested that mNanog expression induces dorsal mesoderm by regulating both Activin/nodal signaling and BMP signaling in Xenopus. This finding highlights the possibly novel function for mNanog in stimulating the endogenous gene network in Xenopus mesoderm formation.
SUBMITTER: Miyazaki A
PROVIDER: S-EPMC3469649 | biostudies-literature | 2012
REPOSITORIES: biostudies-literature
Miyazaki Aya A Ishii Kentaro K Yamashita Satoshi S Nejigane Susumu S Matsukawa Shinya S Ito Yuzuru Y Onuma Yasuko Y Asashima Makoto M Michiue Tatsuo T
PloS one 20121011 10
<h4>Background</h4>In Xenopus early embryogenesis, various genes are involved with mesoderm formation. In particular, dorsal mesoderm contains the organizer region and induces neural tissues through the inhibition of bone morphogenetic protein (BMP) signaling. In our initial study to identify novel genes necessary for maintaining the undifferentiated state, we unexpectedly revealed mesoderm-inducing activity for mNanog in Xenopus.<h4>Methodology/principal findings</h4>The present series of exper ...[more]