5.6.1.2	ATP + H2O + a dynein associated with a microtubule at position n	-	
5.6.1.2	ATP + H2O + a dynein associated with a microtubule at position n	cytoplasmic dynein heavy chain 2.2 is required for flagellar assembly and also participates in maintenance of promastigote cell shape. LmxDHC2.2 is not an essential gene	
5.6.1.2	ATP + H2O + a dynein associated with a microtubule at position n	cytoplasmic dynein is the sole motor for microtubule-based ER motility throughout the early stages of development	
5.6.1.2	ATP + H2O + a dynein associated with a microtubule at position n	dynactin and cytoplasmic dynein require each other for microtubule plus-end accumulation. The presence of cytoplasmic dynein is also important for the microtubule plus-end accumulation of NADF	
5.6.1.2	ATP + H2O + a dynein associated with a microtubule at position n	dynein has a dominant function in transporting kinetochore microtubule bundles (K fibers) to the centrosomes	
5.6.1.2	ATP + H2O + a dynein associated with a microtubule at position n	dynein is a primary motor for fast transport of mitochondria in Drosophila motor axons	
5.6.1.2	ATP + H2O + a dynein associated with a microtubule at position n	dynein is required directly for rotation of the centrosome/nucleus complex onto the proper embryonic axis, for correct chromosome congression, and for timely initiation of anaphase	
5.6.1.2	ATP + H2O + a dynein associated with a microtubule at position n	dynein is required for formation and early maintenance of the vegetal microtubule array	
5.6.1.2	ATP + H2O + a dynein associated with a microtubule at position n	dynein is required for microtubule-dependent movement of late endocytic vesicles	
5.6.1.2	ATP + H2O + a dynein associated with a microtubule at position n	dynein is required to prevent premature fast mass movement of cytoplasm (cytoplasmic streaming)