Paper Citing NAMD - Abstract
Shang, Zhiguo; Zhou, Kaifeng; Xu, Chen; Csencsits, Roseann; Cochran, Jared C.; Sindelar, Charles V.
High-resolution structures of kinesin on microtubules provide a basis for nucleotide-gated force generation
ELIFE, 3 Art. No. e04686, NOV 21 2014
Microtubule-based transport by the kinesin motors, powered by ATP hydrolysis, is essential for a wide range of vital processes in eukaryotes. We obtained insight into this process by developing atomic models for no-nucleotide and ATP states of the monomeric kinesin motor domain on microtubules from cryo-EM reconstructions at 5-6 angstrom resolution. By comparing these models with existing X-ray structures of ADP-bound kinesin, we infer a mechanistic scheme in which microtubule attachment, mediated by a universally conserved 'linchpin' residue in kinesin (N255), triggers a clamshell opening of the nucleotide cleft and accompanying release of ADP. Binding of ATP re-closes the cleft in a manner that tightly couples to translocation of cargo, via kinesin's 'neck linker' element. These structural transitions are reminiscent of the analogous nucleotide-exchange steps in the myosin and F1-ATPase motors, and inform how the two heads of a kinesin dimer 'gate' each other to promote coordinated stepping along microtubules.
