Kinetics of beta-tubulin exchange following translation. Evidence for a slow conformational change in beta-tubulin necessary for incorporation into heterodimers.

Cell-free translation of beta-tubulin mRNA generates full length beta-tubulin polypeptides distributed in three molecular forms: a high molecular weight lysate-associated form, the free beta-tubulin subunit, and the alpha beta-heterodimer (Yaffe, M.B., Farr, G. W., and Sternlicht, H. (1988) J. Biol. Chem. 263, 16023-16031). A quantitative assay system for these three forms was developed and used to measure the rates of incorporation/exchange of the newly synthesized free beta-subunit and the high molecular weight form into tubulin heterodimers following incubation of the 35S-translation products with unlabeled bovine tubulin dimer. This exchange process was found to be slow and strongly temperature-dependent. The half-lives for exchange ranged from 12.5 min at 37 degrees C to 17.5 h at 0 degree C with a measured activation energy of 22.5 kcal/mol. Microtubule-associated proteins appeared to play no role in the exchange process, since identical exchange rates were observed regardless of whether microtubule protein or phosphocellulose-purified tubulin was used as the source of tubulin dimer. Surprisingly, the exchange rates were found to be independent of dimer concentration. We interpret these results as evidence for a rate-limiting, slow conformational change that occurs within the newly synthesized beta-subunits prior to their association with alpha-tubulin to generate the alpha beta-hetero-dimer.