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Tubulin acetylation promotes penetrative capacity of cells undergoing radial intercalation. , Collins C., Cell Rep. August 17, 2021; 36 (7): 109556.
Permitted and restricted steps of human kinetochore assembly in mitotic cell extracts. , Tarasovetc EV., Mol Biol Cell. June 15, 2021; 32 (13): 1241-1255.
Co-movement of astral microtubules, organelles and F-actin by dynein and actomyosin forces in frog egg cytoplasm. , Pelletier JF., Elife. December 7, 2020; 9
Centriole Number and the Accumulation of Microtubules Modulate the Timing of Apical Insertion during Radial Intercalation. , Collins C., Curr Biol. May 18, 2020; 30 (10): 1958-1964.e3.
The Spindle Assembly Checkpoint Functions during Early Development in Non-Chordate Embryos. , Chenevert J., Cells. April 28, 2020; 9 (5):
CFAP43 modulates ciliary beating in mouse and Xenopus. , Rachev E., Dev Biol. March 15, 2020; 459 (2): 109-125.
A doublecortin-domain protein of Toxoplasma and its orthologues bind to and modify the structure and organization of tubulin polymers. , Leung JM., BMC Mol Cell Biol. February 28, 2020; 21 (1): 8.
Phase separation of TPX2 enhances and spatially coordinates microtubule nucleation. , King MR ., Nat Commun. January 14, 2020; 11 (1): 270.
Disassembly of Actin and Keratin Networks by Aurora B Kinase at the Midplane of Cleaving Xenopus laevis Eggs. , Field CM ., Curr Biol. June 17, 2019; 29 (12): 1999-2008.e4.
XMAP215 promotes microtubule-F-actin interactions to regulate growth cone microtubules during axon guidance in Xenopuslaevis. , Slater PG ., J Cell Sci. April 30, 2019; 132 (9):
Mechanically Distinct Microtubule Arrays Determine the Length and Force Response of the Meiotic Spindle. , Takagi J., Dev Cell. April 22, 2019; 49 (2): 267-278.e5.
PLK4 is a microtubule-associated protein that self-assembles promoting de novo MTOC formation. , Montenegro Gouveia S., J Cell Sci. November 9, 2018; 132 (4):
Reorganization of actin filaments by ADF/cofilin is involved in formation of microtubule structures during Xenopus oocyte maturation. , Yamagishi Y., Mol Biol Cell. December 1, 2015; 26 (24): 4387-400.
Phase transition of spindle-associated protein regulate spindle apparatus assembly. , Jiang H., Cell. September 24, 2015; 163 (1): 108-22.
Dynein light intermediate chains maintain spindle bipolarity by functioning in centriole cohesion. , Jones LA., J Cell Biol. November 24, 2014; 207 (4): 499-516.
Regulation of microtubule-based transport by MAP4. , Semenova I., Mol Biol Cell. October 15, 2014; 25 (20): 3119-32.
Radial intercalation is regulated by the Par complex and the microtubule-stabilizing protein CLAMP/ Spef1. , Werner ME., J Cell Biol. August 4, 2014; 206 (3): 367-76.
Kinetochore- microtubule attachment throughout mitosis potentiated by the elongated stalk of the kinetochore kinesin CENP-E. , Vitre B., Mol Biol Cell. August 1, 2014; 25 (15): 2272-81.
Hecate/Grip2a acts to reorganize the cytoskeleton in the symmetry-breaking event of embryonic axis induction. , Ge X., PLoS Genet. June 26, 2014; 10 (6): e1004422.
Nudel/NudE and Lis1 promote dynein and dynactin interaction in the context of spindle morphogenesis. , Wang S., Mol Biol Cell. November 1, 2013; 24 (22): 3522-33.
Directional transport is mediated by a Dynein-dependent step in an RNA localization pathway. , Gagnon JA., PLoS Biol. January 1, 2013; 11 (4): e1001551.
Cargo transport by cytoplasmic Dynein can center embryonic centrosomes. , Longoria RA., PLoS One. January 1, 2013; 8 (7): e67710.
Human chromokinesins promote chromosome congression and spindle microtubule dynamics during mitosis. , Wandke C., J Cell Biol. September 3, 2012; 198 (5): 847-63.
CK1 activates minus-end-directed transport of membrane organelles along microtubules. , Ikeda K., Mol Biol Cell. April 15, 2011; 22 (8): 1321-9.
Mechanical properties of organelles driven by microtubule-dependent molecular motors in living cells. , Bruno L., PLoS One. April 1, 2011; 6 (4): e18332.
The N-terminal coiled-coil of Ndel1 is a regulated scaffold that recruits LIS1 to dynein. , Zyłkiewicz E., J Cell Biol. February 7, 2011; 192 (3): 433-45.
Directly probing the mechanical properties of the spindle and its matrix. , Gatlin JC ., J Cell Biol. February 22, 2010; 188 (4): 481-9.
Spindle fusion requires dynein-mediated sliding of oppositely oriented microtubules. , Gatlin JC ., Curr Biol. February 24, 2009; 19 (4): 287-96.
A centriole- and RanGTP-independent spindle assembly pathway in meiosis I of vertebrate oocytes. , Dumont J., J Cell Biol. January 29, 2007; 176 (3): 295-305.
Biophysical model of self-organized spindle formation patterns without centrosomes and kinetochores. , Schaffner SC., Proc Natl Acad Sci U S A. July 25, 2006; 103 (30): 11166-71.
TPX2 is required for postmitotic nuclear assembly in cell-free Xenopus laevis egg extracts. , O'Brien LL., J Cell Biol. June 5, 2006; 173 (5): 685-94.
Organelle transport along microtubules in Xenopus melanophores: evidence for cooperation between multiple motors. , Levi V., Biophys J. January 1, 2006; 90 (1): 318-27.
Behavior of delta-tubulin during spindle formation in Xenopus oocytes: requirement of cytoplasmic dynein-dependent translocation. , Kotani T., Zygote. August 1, 2005; 13 (3): 219-26.
Overexpression of truncated gamma-tubulins disrupts mitotic aster formation in Xenopus oocyte extracts. , Kotani T., Biochem J. August 1, 2005; 389 (Pt 3): 611-7.
The XMAP215-family protein DdCP224 is required for cortical interactions of microtubules. , Hestermann A., BMC Cell Biol. June 8, 2004; 5 24.
A role for spectrin in dynactin-dependent melanosome transport in Xenopus laevis melanophores. , Aspengren S., Pigment Cell Res. June 1, 2004; 17 (3): 295-301.
Centrosome maturation and duplication in C. elegans require the coiled-coil protein SPD-2. , Kemp CA., Dev Cell. April 1, 2004; 6 (4): 511-23.
Differential regulation of dynein-driven melanosome movement. , Reilein AR., Biochem Biophys Res Commun. September 26, 2003; 309 (3): 652-8.
XMAP215, XKCM1, NuMA, and cytoplasmic dynein are required for the assembly and organization of the transient microtubule array during the maturation of Xenopus oocytes. , Becker BE., Dev Biol. September 15, 2003; 261 (2): 488-505.
Direct observation of microtubule dynamics at kinetochores in Xenopus extract spindles: implications for spindle mechanics. , Maddox P., J Cell Biol. August 4, 2003; 162 (3): 377-82.
Analysis of microtubule movement on isolated Xenopus egg cortices provides evidence that the cortical rotation involves dynein as well as Kinesin Related Proteins and is regulated by local microtubule polymerisation. , Marrari Y., Dev Biol. May 1, 2003; 257 (1): 55-70.
Stu2p, the budding yeast member of the conserved Dis1/ XMAP215 family of microtubule-associated proteins is a plus end-binding microtubule destabilizer. , van Breugel M., J Cell Biol. April 28, 2003; 161 (2): 359-69.
Dynactin is required for bidirectional organelle transport. , Deacon SW., J Cell Biol. February 3, 2003; 160 (3): 297-301.
Activation of myosin V-based motility and F-actin-dependent network formation of endoplasmic reticulum during mitosis. , Wollert T., J Cell Biol. November 25, 2002; 159 (4): 571-7.
The gene for the intermediate chain subunit of cytoplasmic dynein is essential in Drosophila. , Boylan KL., Genetics. November 1, 2002; 162 (3): 1211-20.
Reorganization of the microtubule array in prophase/prometaphase requires cytoplasmic dynein-dependent microtubule transport. , Rusan NM., J Cell Biol. September 16, 2002; 158 (6): 997-1003.
Interactions and regulation of molecular motors in Xenopus melanophores. , Gross SP., J Cell Biol. March 4, 2002; 156 (5): 855-65.
Identification of novel molecular components of the photoreceptor connecting cilium by immunoscreens. , Schmitt A., Exp Eye Res. December 1, 2001; 73 (6): 837-49.
Apoptotic cleavage of cytoplasmic dynein intermediate chain and p150( Glued) stops dynein-dependent membrane motility. , Lane JD., J Cell Biol. June 25, 2001; 153 (7): 1415-26.
Phosphorylation by cdc2-CyclinB1 kinase releases cytoplasmic dynein from membranes. , Addinall SG., J Biol Chem. May 11, 2001; 276 (19): 15939-44.