-
Zhang et al., 2007, J. Cell Biol. 177(2): 231--242
Three microtubule severing enzymes contribute to the "Pacman-flux" machinery that moves chromosomes.
-
Cherbas, 2008.10.16, Origin of miscellaneous transformed cell lines.
Origin of miscellaneous transformed cell lines.
-
Cherbas, 2008.11.12, Cell lines from the DGRC.
Cell lines from the DGRC.
-
Reis et al., 2009, J. Cell Sci. 122(14): 2543--2553
Dynein and Mast/Orbit/CLASP have antagonistic roles in regulating kinetochore-microtubule plus-end dynamics.
-
Rath et al., 2009, Mol. Biol. Cell 20(22): 4696--4705
The Drosophila kinesin-13, KLP59D, impacts Pacman- and Flux-based chromosome movement.
-
Kner et al., 2009, Nat. Methods 6(5): 339--342
Super-resolution video microscopy of live cells by structured illumination.
-
Lince-Faria et al., 2009, J. Cell Biol. 184(5): 647--657
Spatiotemporal control of mitosis by the conserved spindle matrix protein Megator.
-
Matos et al., 2009, J. Cell Biol. 186(1): 11--26
Synchronizing chromosome segregation by flux-dependent force equalization at kinetochores.
-
Bairoch, 2016, The Cellosaurus: a cell line knowledge resource.
The Cellosaurus: a cell line knowledge resource.
-
Popova et al., 2022, Cells 11(14): 2127
Genetic Control of Kinetochore-Driven Microtubule Growth in Drosophila Mitosis.