5.6.1.3	ATP + H2O + a kinesin associated with a microtubule at position n	-	
5.6.1.3	ATP + H2O + a kinesin associated with a microtubule at position n	alternating site ATPase pathway, including a captive head state as an intermediate in the kinesin ATPase cycle	
5.6.1.3	ATP + H2O + a kinesin associated with a microtubule at position n	conventional kinesin is required for the microtubule plus-end accumulation of cytoplasmic dynein and dynactin but not for NUDF	
5.6.1.3	ATP + H2O + a kinesin associated with a microtubule at position n	Eh Klp5 is a divergent member of the kinesin 5 family that regulates genome content and microtubular assembly	
5.6.1.3	ATP + H2O + a kinesin associated with a microtubule at position n	in regulating plus end motility, KIF16B governs the spatial distribution of early endosomes in vivo and the balance between receptor recycling and degradation	
5.6.1.3	ATP + H2O + a kinesin associated with a microtubule at position n	Kin5 is an intraciliary transport motor	
5.6.1.3	ATP + H2O + a kinesin associated with a microtubule at position n	kinesin I and cytoplasmic dynein orchestrate glucose-stimulated insulin-containing vesicle movements in clonal MIN6 beta-cells. The majority of transport of large dense-core vesicles in beta-cells is mediated by kinesin I, whilst dynein probably contributes to the recovery of vesicles after rapid kiss-and-run exocytosis	
5.6.1.3	ATP + H2O + a kinesin associated with a microtubule at position n	kinesin MCAK/XKCM1destabilizes microtubules. Kinesin MCAK/XKCM1 is essential for controlling the distribution of microtubules by inducing their depolymerization	
5.6.1.3	ATP + H2O + a kinesin associated with a microtubule at position n	kinesin motor domain interacts with both alpha- and beta-tubulin	
5.6.1.3	ATP + H2O + a kinesin associated with a microtubule at position n	kinesin-1 supports long-range hyphal growth. Kinesin-1, kinesin-3 and myosin-V cooperate in polarized growth. Kinesin-3 participates in acid phosphatase secretion in hyphae