Influence of the kinesin neck domain on dimerization and ATPase kinetics

Motor domains of kinesin were expressed that extend from the N terminus to positions 346, 357, 365, 381, and 405 (designated DKH346-DKH405) to determine if the kinetic differences observed between monomeric DKH340 and dimeric DKH392 (Hackney, D. D. (1994) Proc. Natl. Acad. Sci. U.S.A. 91, 6865-6869) were specific to these constructs or due to their oligomeric state, Sedimentation analysis indicated that DKH346, DKH357, and DKH365 are predominantly monomeric and that DKH381 and DKH405 are predominantly dimeric at 0.01-0.03 mu M, the concentrations used for ATPase assays, In buffer with 25 mm KCl, all have high k(cat) values of 38-96 s(-1) at saturating microtubule (MT) levels, Monomeric DKH346, DKH357, and DKH365 have K-0.5(MT) values of 17, 9, and 1.4 mu M, respectively, but the K,.,,,,, values for the dimeric species are significantly lower, with 0.02 and 0.14 mu M for DKH381 and DKH405, respectively, The three new monomers release all of their ADP on association with microtubules, whereas the two new dimers retain approximately half of their ADP, consistent with the half site reactivity observed previously with dimeric DKH392, Both the k(bi(ATPase)) (=k(cat)/K-0.5(M/T)) values for stimulation of ATPase by MTs and the k(bi(ADP)) for stimulation of ADP release by MTs were determined in buffer containing 120 mM potassium acetate, The ratio of these rate constants (k(bi(ratio)) = k(bi(ATPase))/k(bi(ADP))) is 60-100 for the dimers, indicating hydrolysis of many ATP molecules per productive encounter with a MT as observed previously for DKH392 (Hackney, D. D.(1995) Nature 377, 448-450), For the monomers, k(bi(ratio)) values of similar to 4 indicate that they also may hydrolyze more than one ATP molecule per encounter with a MT and that the mechanism of hydrolysis is therefore fundamentally different from that of actomyosin, DKH340 is an exception to this pattern and may undergo uncoupled ATP hydrolysis.