Kinetics of microtubule formation after cold disaggregation of the mitotic apparatus

The rate of spindle-fiber reformation following cold treatment of the giant amoeba, Chaos carolinensis, has been determined and used to test a single growth point, subunit incorporation model of microtubule assembly. Mitotic apparatuses isolated at one-minute intervals after rewarming contain progressively longer spindle fibers; re-assembly begins at the kinetochore region, proceeds at a rate of 1·5 μm per minute, then slows as the normal length of 5 μm is approached. From information on microtubule ultrastructure, the total number of 40-Å subunits in mitotic apparatuses per amoeba, and hence the concentration released during disassembly, was calculated to be 1·0 × 10 15 molecules per cm 3. Calculation of diffusion and assembly kinetics indicates that this concentration of microtubule subunits is equal to the concentration required to produce a growth rate of 1·5 μm per minute by diffusion of single subunits to one assembly point per microtubule.