A kinesin mutation that uncouples motor domains and desensitizes the γ-phosphate sensor

Conventional kinesin is a processive, microtubule-based motor protein that drives movements of membranous organelles in neurons. Amino acid Thr(291) Of Drosophila kinesin heavy chain is identical in all superfamily members and is located in alpha-helix 5 on the microtubule-binding surface of the catalytic motor domain. Substitution of methionine at Thr(291) results in complete loss of function in vivo. In vitro, the T291M mutation disrupts the ATPase cross-bridge cycle of a kinesin motor/neck construct, K401-4 (Brendza, K. M., Rose, D, J,, Gilbert, S. P,, and Saxton, W, M, (1999) J, Biol. Chem, 274, 31506-31514), The pre-steady-state kinetic analysis presented here shows that ATP binding is weakened significantly, and the rate ofATP hydrolysis is increased. The mutant motor also fails to distinguish ATP from ADP, suggesting that the contacts important for sensing the gamma-phosphate have been altered. The resuits indicate that there is a signaling defect between the motor domains of the T291M dimer, The ATPase cycles of the two motor domains appear to become kinetically uncoupled, causing them to work more independently rather than in the strict, coordinated fashion that is typical of kinesin.