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Microtubule end conversion mediated by motors and diffusing proteins with no intrinsic microtubule end-binding activity. , Chakraborty M., Nat Commun. April 11, 2019; 10 (1): 1673.
Kinetochore function is controlled by a phospho-dependent coexpansion of inner and outer components. , Wynne DJ., J Cell Biol. September 14, 2015; 210 (6): 899-916.
Preventing farnesylation of the dynein adaptor Spindly contributes to the mitotic defects caused by farnesyltransferase inhibitors. , Holland AJ., Mol Biol Cell. May 15, 2015; 26 (10): 1845-56.
Kinetochore- microtubule attachment throughout mitosis potentiated by the elongated stalk of the kinetochore kinesin CENP-E. , Vitre B., Mol Biol Cell. August 1, 2014; 25 (15): 2272-81.
Multiple domains of human CLASP contribute to microtubule dynamics and organization in vitro and in Xenopus egg extracts. , Patel K., Cytoskeleton (Hoboken). March 1, 2012; 69 (3): 155-65.
In vitro centromere and kinetochore assembly on defined chromatin templates. , Guse A., Nature. August 28, 2011; 477 (7364): 354-8.
CENP-E combines a slow, processive motor and a flexible coiled coil to produce an essential motile kinetochore tether. , Kim Y., J Cell Biol. May 5, 2008; 181 (3): 411-9.
Microtubule capture by CENP-E silences BubR1-dependent mitotic checkpoint signaling. , Mao Y., J Cell Biol. September 12, 2005; 170 (6): 873-80.
Direct observation of microtubule dynamics at kinetochores in Xenopus extract spindles: implications for spindle mechanics. , Maddox P., J Cell Biol. August 4, 2003; 162 (3): 377-82.
Activating and silencing the mitotic checkpoint through CENP-E-dependent activation/inactivation of BubR1. , Mao Y., Cell. July 11, 2003; 114 (1): 87-98.