Looking into the sea urchin embryo you can see local cell interactions regulate morphogenesis
- 1 August 1997
- Vol. 19 (8) , 665-668
- https://doi.org/10.1002/bies.950190805
Abstract
The transparent sea urchin embryo provides a laboratory for study of morphogenesis. The calcareous endoskeleton is formed by a syncytium of mesenchyme cells in the blastocoel. The locations of mesenchyme in the blastocoel, the size of the skeleton, and even the branching pattern of the skeletal rods, are governed by interactions with the blastula wall. Now Guss and Ettensohn(1) show that the rate of deposition of CaCO3 in the skeleton is locally controlled in the mesenchymal syncytium, as is the pattern of expression of three genes involved in skeleton formation. They propose that short range signals emanating from the blastula wall regulate many aspects of the biomineralization process.Keywords
This publication has 16 references indexed in Scilit:
- Amorphous calcium carbonate transforms into calcite during sea urchin larval spicule growthProceedings Of The Royal Society B-Biological Sciences, 1997
- Mechanisms of Evolutionary Changes in Timing, Spatial Expression, and mRNA Processing in themsp130Gene in a Direct-Developing Sea Urchin,Heliocidaris erythrogrammaDevelopmental Biology, 1997
- Structure, Expression, and Extracellular Targeting of PM27, a Skeletal Protein Associated Specifically with Growth of the Sea Urchin Larval SpiculeDevelopmental Biology, 1995
- Analysis of competence in cultured sea urchin micromeresExperimental Cell Research, 1992
- Differential expression of the msp130 gene among skeletal lineage cells in the sea urchin embryo: a three dimensional in situ hybridization analysisMechanisms of Development, 1992
- Characterization and expression of a gene encoding a 30.6-kDa Strongylocentrotus purpuratus spicule matrix proteinDevelopmental Biology, 1991
- The regulation of primary mesenchyme cell patterningDevelopmental Biology, 1990
- A lineage-specific gene encoding a major matrix protein of the sea urchin embryo spiculeDevelopmental Biology, 1987
- Spicule Formation by Isolated Micromeres of the Sea Urchin EmbryoAmerican Zoologist, 1975
- Normal Development to MetamorphosisPublished by Springer Nature ,1975