ABSTRACT
We have previously shown that the inhibition of fibroblast growth factor (FGF) signaling induced endodermal gene expression in the animal cap and caused the expansion of the endodermal mass in Xenopus embryos. However, we still do not know whether or not the alteration of FGF signaling controls embryonic cell fate, or when FGF signal blocking is required for endoderm formation in Xenopus. Here, we show that FGF signal blocking in embryonic cells causes their descendants to move into the endodermal region and to express endodermal genes. It is also interesting that blocking FGF signaling between fertilization and embryonic stage 10.5 promotes endoderm formation, but persistent FGF signaling blocking after stage 10.5 restricts endoderm formation and differentiation.
Subject(s)
Animals , Endoderm/drug effects , Fibroblast Growth Factors/antagonists & inhibitors , Gene Expression Regulation, Developmental/drug effects , In Situ Hybridization , Pyrroles/administration & dosage , Receptors, Fibroblast Growth Factor/genetics , Reverse Transcriptase Polymerase Chain Reaction , Signal Transduction/drug effects , Xenopus Proteins/antagonists & inhibitors , Xenopus laevis/embryologyABSTRACT
Homeodomain transcription factors functioning downstream of BMP ventral pathway have been reported to share similar domain of roles in mesoderm patterning along the dorsal-ventral axis. To elucidate the differential role of PV.1 in the aspect of relationship between dorsal and ventral region, we tried to screen PV.1- interacting proteins. Twenty-four PV.1-interacting proteins were identified by yeast two-hybrid screening. Xvent-2 and Xclaudin-6 among these, went under domain study. The C-terminus of PV.1, more specifically 197-241 region was found to interact with Xclaudin-6. Meanwhile Xvent-2 has mild affinity to overall C-terminal region of PV.1. At the same time it was found that Xvent-2 homodimerizes and also binds to Xclaudin-6.