Microtubule assembly of different beta tubulin isotypes in the presence of 4 M glycerol and 6 mM magnesium ion demonstrates significantly different characteristics. alpha beta II and alpha beta IV assembled faster and to a greater extent than did unfractionated phosphocellulose-purified tubulin (PC-tubulin). Microtubule assembly from alpha beta III showed a distinctive delay in nucleation, proceeded at a slower rate than those of the other beta tubulin isotypes, and had the highest critical concentration. However, treatment of beta tubulin isotypes with subtilisin to remove the C-terminal domain of the tubulin dimer abolished these differences in microtubule assembly pattern and enhanced self-assembly. The kinetic analysis of microtubule elongation of different beta tubulin isotypes also showed significant differences. Elongation of alpha beta III from microtubule seeds had a lower apparent K alpha and a lower apparent Kd than did alpha beta II and alpha beta IV. The dynamic behaviors of different beta tubulin isotypes were qualitatively similar to each other and fit the dynamic instability model. However, microtubules formed from alpha beta III appeared to be less dynamic than microtubules formed from other beta tubulin isotypes. Our results suggest that the beta III isotype might have a different conformation than do the other beta tubulin isotypes. The distinctive nucleation and elongation behaviors of the alpha beta III dimers demonstrated in vitro may have a significant influence on microtubule functions in vivo.