| Abstract: | The two molecular forms of acethylcholinesterase (EC 3.1.1.7) in sea urchin embryos were characterized by several physical methods. The sedimentation coefficients determined by sucrose gradient centrifugation are 7.6S and 10.6S. The Stokes radii determined by gel filtration are 65 Å and 91 Å. From these parameters, molecular weights were estimated as 190,000 and 380,000; the one is twice as large as the other. Both forms have similar electric property and buoyant density in a CsCl gradient. When the enzyme solution was concentrated, the 10.6S form became predominant. These results suggest that the two forms are monomer and dimer. The sea urchin enzymes resemble globular forms of acetylcholinesterase of the electric organ of fishes. The activity of the enzyme abruptly increases in post-gastrulation embryos. Inhibition of concomitant protein synthesis by a specific inhibitor, emetine, does not affect the increase in enzyme activity. The result suggests that post-translational processes may be involved in the differentiation of this enzyme in sea urchin development. The following sea urchins were used in the study: Strongylocentrotus purpuratus, Strongylocentrotus franciscanus, and Dendraster excentricus. |
