Microtubule proteins in axolotl eggs and developing embryos

Abstract

Tubulin from eggs and embryos of the Mexican axolotl was characterized by electrophoresis and colchicine binding. In urea-polyacrylamide gel electrophoresis, soluble axolotl egg tubulin migrated as two bands, identical to tubulins from sea urchin sperm and Drosophila eggs. However, in SDS-containing gels, on which the α and β subunits of standard tubulins were well resolved, axolotl egg tubulin migrated as a single band with an apparent molecular weight of 53,500. The method of disruption of the eggs affected both yield of tubulin from vinblastine sulfate precipitates and stability of the colchicine binding activity. The colchicine binding activity of soluble tubulin from gently disrupted eggs was specific and of high affinity, with properties similar to those reported for other tubulins. The tubulin pool in unfertilized eggs was determined to be approximately 2 μg/egg; the level decreased 20% after initiation of cleavage and then remained constant through development to postneurula stages. The colchicine binding activity of soluble tubulin from embryos was much less stable than that of unfertilized eggs and decreased further during development. No differences were found in properties of tubulin from eggs of several strains of normally pigmented axolotls; however, tubulin from albino eggs showed slightly different properties in both electrophoresis and colchicine binding. The colchicine binding activity of soluble tubulin accounts for only half the total activity in axolotl eggs; they possess, in addition, a particulate nontubulin colchicine binding activity.