SIMILARITY OF PROTEINS SYNTHESIZED BY ISOLATED BLASTOMERES OF EARLY SEA-URCHIN EMBRYOS

The 16-cell sea urchin embryo has blastomeres of three distinct size classes: micromeres, mesomeres, and macromeres. Each class is already restricted in its developmental fate, micromeres being committed to formation of primary mesenchyme cells. The three classes of blastomeres were isolated in high purity and incubated in [35S]methionine until the next cleavage. Nearly all the radioactive protein was solubilized and subjected to two-dimensional electrophoresis according to O'Farrell. Of approximately 1000 spots resolved, there are no qualitative differences among the three blastomeres. When embryos were labeled between the first and fourth cleavages and blastomeres then isolated, no qualitative differences in protein synthesis were observed. Moreover, there are very few changes when unfertilized eggs are compared to 16-cell embryos. Thus cellular determination during embryonic development is not accompanied by qualitative changes in the distribution within the embryo of abundantly synthesized proteins, virtually all of which are coded for by sequences present in the egg. © 1979.