Biology Reference
In-Depth Information
acknowledge the Nikon Imaging Centre at Institut Curie. The authors also thank V. Nicolas
(Institut F´d´ratif de Recherche IPSIT, Univ. Paris-Sud 11) for helpful advice in imaging in
vitro assembled microtubules on the LSM510 microscope. F. P. team is supported by the Cen-
tre National de la Recherche Scientifique and by the Institut Curie and by grants from the
Agence National de la Recherche, the Fondation pour la Recherche M´dicale, and the Institut
National du Cancer. H. F. is supported by the Minist`re de l'Enseignement Sup´rieur et de la
Recherche and the Fondation ARC pour la Recherche sur le Cancer.
References
Arnal, I., & Wade, R. H. (1995). How does taxol stabilize microtubules? Current Biology , 5 ,
900-908.
Bayley, P. M., Schilstra, M. J., & Martin, S. R. (1990). Microtubule dynamic instability: Nu-
merical simulation of microtubule transition properties using a Lateral Cap model. Journal
of Cell Science , 95 , 33-48.
Brinkley, B. R., Cox, S. M., Pepper, D. A., Wible, L., Brenner, S. L., & Pardue, R. L. (1981).
Tubulin assembly sites and the organization of cytoplasmic microtubules in cultured mam-
malian cells. The Journal of Cell Biology , 90 , 554-562.
Caplow, M., & Shanks, J. (1996). Evidence that a single monolayer tubulin-GTP cap is both nec-
essary and sufficient to stabilize microtubules. Molecular Biology of the Cell , 7 , 663-675.
Dimitrov, A., Quesnoit, M., Moutel, S., Cantaloube, I., Pous, C., & Perez, F. (2008). Detection
of GTP-tubulin conformation in vivo reveals a role for GTP remnants in microtubule
rescues. Science , 322 , 1353-1356.
Drechsel, D. N., & Kirschner, M. W. (1994). The minimum GTP cap required to stabilize
microtubules. Current Biology , 4 , 1053-1061.
Gardner, M. K., Zanic, M., & Howard, J. (2013). Microtubule catastrophe and rescue. Current
Opinion in Cell Biology , 25 , 14-22.
Gustafsson, M. G., Shao, L., Carlton, P. M., Wang, C. J., Golubovskaya, I. N., Cande, W. Z.,
Agard, D. A., & Sedat, J. W. (2008). Three-dimensional resolution doubling in wide-field
fluorescence microscopy by structured illumination. Journal of Biophysics , 94 ,
4957-4970.
Howard, J., Hunt, A. J., & Baek, S. (1993). Assay of microtubule movement driven by single
kinesin molecules. Methods in Cell Biology , 39 , 137-147.
Hyman, A. A., Salser, S., Drechsel, D. N., Unwin, N., & Mitchison, T. J. (1992). Role of GTP
hydrolysis in microtubule dynamics: Information from a slowly hydrolyzable analogue,
GMPCPP. Molecular Biology of the Cell , 3 , 1155-1167.
Infante, A. S., Stein, M. S., Zhai, Y., Borisy, G. G., & Gundersen, G. G. (2000). Detyrosinated
(Glu) microtubules are stabilized by an ATP-sensitive plus-end cap. Journal of Cell
Science , 113 (Pt. 22), 3907-3919.
Maurer, S. P., Bieling, P., Cope, J., Hoenger, A., & Surrey, T. (2011). GTPgammaS microtu-
bules mimic the growing microtubule end structure recognized by end-binding proteins
(EBs). Proceedings of the National Academy of Sciences of the United States of America ,
108 , 3988-3993.
Mitchison, T., & Kirschner, M. (1984). Dynamic instability of microtubule growth. Nature ,
312 , 237-242.
Previous Page
Next Page
Methods in Cell Biology
Search WWH ::




Custom Search
Home