1. Zhang, D., et al., Drosophila katanin is a microtubule depolymerase that regulates cortical-microtubule plus-end interactions and cell migration. Nature Cell Biology, 2011. 13(4): p. 361-70.
2. Sonbuchner, T.M., U. Rath, and D.J. Sharp, KL1 is a novel microtubule severing enzyme that regulates mitotic spindle architecture. Cell Cycle, 2010. 9(12): p. 2403-11.
3. Rath, U., et al., The Drosophila kinesin-13, KLP59D, impacts Pacman- and Flux-based chromosome movement. Molecular Biology of the Cell, 2009. 20(22): p. 4696-705.
4. Mennella, V., et al., Motor domain phosphorylation and regulation of the Drosophila kinesin 13, KLP10A. The Journal of Cell Biology, 2009. 186(4): p. 481-90.
5. Fernandez, N., et al., A model for the regulatory network controlling the dynamics of kinetochore microtubule plus-ends and poleward flux in metaphase. Proceedings of the National Academy of Sciences of the United States of America, 2009. 106(19): p. 7846-51.
6. Gomez-Ferreria, M.A., et al., Human Cep192 is required for mitotic centrosome and spindle assembly. Current Biology : CB, 2007. 17(22): p. 1960-6.
7. Zhang, D., et al., Three microtubule severing enzymes contribute to the "Pacman-flux" machinery that moves chromosomes. The Journal of Cell Biology, 2007. 177(2): p. 231-42.
8. Mennella, V., et al., Functionally distinct kinesin-13 family members cooperate to regulate microtubule dynamics during interphase. Nature Cell Biology, 2005. 7(3): p. 235-45.
9. Rogers, G.C., et al., Two mitotic kinesins cooperate to drive sister chromatid separation during anaphase. Nature, 2004. 427(6972): p. 364-70.
1. Zhang, D., et al., Drosophila katanin is a microtubule depolymerase that regulates cortical-microtubule plus-end interactions and cell migration. Nature Cell Biology, 2011. 13(4): p. 361-70.
2. Sonbuchner, T.M., U. Rath, and D.J. Sharp, KL1 is a novel microtubule severing enzyme that regulates mitotic spindle architecture. Cell Cycle, 2010. 9(12): p. 2403-11.
3. Rath, U., et al., The Drosophila kinesin-13, KLP59D, impacts Pacman- and Flux-based chromosome movement. Molecular Biology of the Cell, 2009. 20(22): p. 4696-705.
4. Mennella, V., et al., Motor domain phosphorylation and regulation of the Drosophila kinesin 13, KLP10A. The Journal of Cell Biology, 2009. 186(4): p. 481-90.
5. Fernandez, N., et al., A model for the regulatory network controlling the dynamics of kinetochore microtubule plus-ends and poleward flux in metaphase. Proceedings of the National Academy of Sciences of the United States of America, 2009. 106(19): p. 7846-51.
6. Gomez-Ferreria, M.A., et al., Human Cep192 is required for mitotic centrosome and spindle assembly. Current Biology : CB, 2007. 17(22): p. 1960-6.
7. Zhang, D., et al., Three microtubule severing enzymes contribute to the "Pacman-flux" machinery that moves chromosomes. The Journal of Cell Biology, 2007. 177(2): p. 231-42.
8. Mennella, V., et al., Functionally distinct kinesin-13 family members cooperate to regulate microtubule dynamics during interphase. Nature Cell Biology, 2005. 7(3): p. 235-45.
9. Rogers, G.C., et al., Two mitotic kinesins cooperate to drive sister chromatid separation during anaphase. Nature, 2004. 427(6972): p. 364-70.