Centriole assembly in Caenorhabditis elegans (original) (raw)
References
Dutcher, S. K. Elucidation of basal body and centriole functions in Chlamydomonas reinhardtii. Traffic4, 443–451 (2003) ArticleCAS Google Scholar
Briggs, L. J., Davidge, J. A., Wickstead, B., Ginger, M. L. & Gull, K. More than one way to build a flagellum: comparative genomics of parasitic protozoa. Curr. Biol.14, R611–R612 (2004) ArticleCAS Google Scholar
Gromley, A. et al. Centriolin anchoring of exocyst and SNARE complexes at the midbody is required for secretory-vesicle-mediated abscission. Cell123, 75–87 (2005) ArticleCAS Google Scholar
Piel, M., Nordberg, J., Euteneuer, U. & Bornens, M. Centrosome-dependent exit of cytokinesis in animal cells. Science291, 1550–1553 (2001) ArticleADSCAS Google Scholar
Doxsey, S., McCollum, D. & Theurkauf, W. Centrosomes in cellular regulation. Annu. Rev. Cell Dev. Biol.21, 411–434 (2005) ArticleCAS Google Scholar
Sluder, G. & Rieder, C. L. Centriole number and the reproductive capacity of spindle poles. J. Cell Biol.100, 887–896 (1985) ArticleCAS Google Scholar
Azimzadeh, J. & Bornens, M. in Centrosomes in Development and Disease (ed. Nigg, E. A.) 93–122 (Wiley-VCH, Weinheim, 2004) Google Scholar
Dippell, R. V. The development of basal bodies in paramecium. Proc. Natl Acad. Sci. USA61, 461–468 (1968) ArticleADSCAS Google Scholar
Vorobjev, I. A. & Chentsov Yu, S. Centrioles in the cell cycle. I. Epithelial cells. J. Cell Biol.93, 938–949 (1982) ArticleCAS Google Scholar
O'Toole, E. T. et al. Morphologically distinct microtubule ends in the mitotic centrosome of Caenorhabditis elegans. J. Cell Biol.163, 451–456 (2003) ArticleCAS Google Scholar
Gönczy, P. et al. Functional genomic analysis of cell division in C.elegans using RNAi of genes on chromosome III. Nature408, 331–336 (2000) ArticleADS Google Scholar
Sönnichsen, B. et al. Full-genome RNAi profiling of early embryogenesis in Caenorhabditis elegans. Nature434, 462–469 (2005) ArticleADS Google Scholar
Zipperlen, P., Fraser, A. G., Kamath, R. S., Martinez-Campos, M. & Ahringer, J. Roles for 147 embryonic lethal genes on C.elegans chromosome I identified by RNA interference and video microscopy. EMBO J.20, 3984–3992 (2001) ArticleCAS Google Scholar
O'Connell, K. F. et al. The C.eleganszyg-1 gene encodes a regulator of centrosome duplication with distinct maternal and paternal roles in the embryo. Cell105, 547–558 (2001) ArticleCAS Google Scholar
O'Connell, K. F., Leys, C. M. & White, J. G. A genetic screen for temperature-sensitive cell-division mutants of Caenorhabditis elegans. Genetics149, 1303–1321 (1998) CASPubMedPubMed Central Google Scholar
O'Connell, K. F., Maxwell, K. N. & White, J. G. The spd-2 gene is required for polarization of the anteroposterior axis and formation of the sperm asters in the Caenorhabditis elegans zygote. Dev. Biol.222, 55–70 (2000) ArticleCAS Google Scholar
Pelletier, L. et al. The Caenorhabditis elegans centrosomal protein SPD-2 is required for both pericentriolar material recruitment and centriole duplication. Curr. Biol.14, 863–873 (2004) ArticleCAS Google Scholar
Leidel, S. & Gönczy, P. SAS-4 is essential for centrosome duplication in C.elegans and is recruited to daughter centrioles once per cell cycle. Dev. Cell4, 431–439 (2003) ArticleCAS Google Scholar
Leidel, S. & Gönczy, P. Centrosome duplication and nematodes: recent insights from an old relationship. Dev. Cell9, 317–325 (2005) ArticleCAS Google Scholar
Kirkham, M., Müller-Reichert, T., Oegema, K., Grill, S. & Hyman, A. A. SAS-4 is a C.elegans centriolar protein that controls centrosome size. Cell112, 575–587 (2003) ArticleCAS Google Scholar
Kemp, C. A., Kopish, K. R., Zipperlen, P., Ahringer, J. & O'Connell, K. F. Centrosome maturation and duplication in C.elegans require the coiled-coil protein SPD-2. Dev. Cell6, 511–523 (2004) ArticleCAS Google Scholar
Delattre, M. et al. Centriolar SAS-5 is required for centrosome duplication in C.elegans. Nature Cell Biol.6, 656–664 (2004) ArticleCAS Google Scholar
Dammermann, A. et al. Centriole assembly requires both centriolar and pericentriolar material proteins. Dev. Cell7, 815–829 (2004) ArticleCAS Google Scholar
Leidel, S., Delattre, M., Cerutti, L., Baumer, K. & Gönczy, P. SAS-6 defines a protein family required for centrosome duplication in C.elegans and in human cells. Nature Cell Biol.7, 115–125 (2005) ArticleCAS Google Scholar
Müller-Reichert, T., Srayko, M., Hyman, A., O'Toole, E. & McDonald, K. Correlative light and electron microscopy of early Caenorhabditiselegans embryos in mitosis. Meth. Cell Biol.79, 99–117 (in the press)
Kuriyama, R. & Borisy, G. G. Centriole cycle in Chinese hamster ovary cells as determined by whole-mount electron microscopy. J. Cell Biol.91, 814–821 (1981) ArticleCAS Google Scholar
Robbins, E., Jentzsch, G. & Micali, A. The centriole cycle in synchronized HeLa cells. J. Cell Biol.36, 329–339 (1968) ArticleCAS Google Scholar
Kremer, J. R., Mastronarde, D. N. & McIntosh, J. R. Computer visualization of three-dimensional image data using IMOD. J. Struct. Biol.116, 71–76 (1996) ArticleCAS Google Scholar
Delattre, M., Canard, C. & Gönczy, P. Sequential protein recruitment of C. elegans centriole formation. Curr. Biol.16, 1844–1849 (2006) ArticleCAS Google Scholar