TheDrosophilaKinesin-like Protein KLP67A Is Essential for Mitotic and Male Meiotic Spindle Assembly
- 1 January 2004
- journal article
- Published by American Society for Cell Biology (ASCB) in Molecular Biology of the Cell
- Vol. 15 (1) , 121-131
- https://doi.org/10.1091/mbc.e03-05-0342
Abstract
We have performed a mutational analysis together with RNA interference to determine the role of the kinesin-like protein KLP67A in Drosophila cell division. During both mitosis and male meiosis, Klp67A mutations cause an increase in MT length and disrupt discrete aspects of spindle assembly, as well as cytokinesis. Mutant cells exhibit greatly enlarged metaphase spindle as a result of excessive MT polymerization. The analysis of both living and fixed cells also shows perturbations in centrosome separation, chromosome segregation, and central spindle assembly. These data demonstrate that the MT plus end-directed motor KLP67A is essential for spindle assembly during mitosis and male meiosis and suggest that the regulation of MT plus-end polymerization is a key determinant of spindle architecture throughout cell division.Keywords
This publication has 58 references indexed in Scilit:
- The Microtubule-Destabilizing Kinesin XKCM1 Is Required for Chromosome Positioning during Spindle AssemblyCurrent Biology, 2002
- The Microtubule-destabilizing Kinesin XKCM1 Regulates Microtubule Dynamic Instability in CellsMolecular Biology of the Cell, 2002
- Organized microtubule arrays in γ-tubulin-depleted Drosophila spermatocytesCurrent Biology, 2001
- Relationships between the central spindle and the contractile ring during cytokinesis in animal cellsMicroscopy Research and Technique, 2000
- Molecular Linkage Underlying Microtubule Orientation Toward Cortical Sites in YeastScience, 2000
- Spindle Self-organization and Cytokinesis During Male Meiosis in asterless Mutants of Drosophila melanogaster The Journal of cell biology, 1998
- Mitochondrial Association of a Plus End–Directed Microtubule Motor Expressed during Mitosis in DrosophilaThe Journal of cell biology, 1997
- XKCM1: A Xenopus Kinesin-Related Protein That Regulates Microtubule Dynamics during Mitotic Spindle AssemblyCell, 1996
- Beyond self-assembly: From microtubules to morphogenesisCell, 1986
- Tubulin dynamics in cultured mammalian cells.The Journal of cell biology, 1984