Abstract

ABSTRACT In the chick embryo, the primitive streak is the first axial structure to develop. The initiation of primitive streak formation in the posterior area pellucida is influenced by the adjacent posterior marginal zone (PMZ). We show here that chick Vgl (cVgl), a member of the TGFβ family of signalling molecules whose homolog in Xenopus is implicated in mesoderm induction, is expressed in the PMZ of prestreak embryos. Ectopic expression of cVg1 protein in the marginal zone chick blastoderms directs the formation of a secondary primitive streak, which subsequently develops into an ectopic embryo. We have used cell marking techniques to show that cells that contribute to the ectopic primitive streak change fate, acquiring two distinct properties of primitive streak cells, defined by gene expression and cell movements. Furthermore, naive epiblast explants exposed to cVg1 protein in vitro acquire axial mesodermal properties. Together, these results show that cVg1 can mediate ectopic axis formation in the chick by inducing new cell fates and they permit the analysis of distinct events that occur during primitive streak formation.

Keywords

Primitive streakBiologyMesodermEctopic expressionGastrulationEpiblastCell biologyEmbryoMarginal zoneXenopusFate mappingNODALEmbryogenesisGeneticsMolecular biologyAnatomyEmbryonic stem cellGene

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Publication Info

Year
1997
Type
article
Volume
124
Issue
24
Pages
5127-5138
Citations
121
Access
Closed

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Shailan B. Shah, Isaac Skromne, Clifford R. Hume et al. (1997). Misexpression of chick Vg1 in the marginal zone induces primitive streak formation. Development , 124 (24) , 5127-5138. https://doi.org/10.1242/dev.124.24.5127

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DOI
10.1242/dev.124.24.5127