Papers associated with mitotic spindle

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	An interaction between myosin-10 and the cell cycle regulator Wee1 links spindle dynamics to mitotic progression in epithelia., Sandquist JC., J Cell Biol. March 5, 2018; 217 (3): 849-859.
	Prc1E and Kif4A control microtubule organization within and between large Xenopus egg asters., Nguyen PA., Mol Biol Cell. February 1, 2018; 29 (3): 304-316.
	Autocatalytic microtubule nucleation determines the size and mass of Xenopus laevis egg extract spindles., Decker F., Elife. January 11, 2018; 7
	Aurora A activation in mitosis promoted by BuGZ., Huang Y., J Cell Biol. January 2, 2018; 217 (1): 107-116.
	TPX2 promotes cell proliferation and migration via PLK1 in OC., Ma S., Cancer Biomark. January 1, 2018; 22 (3): 443-451.
	Analyzing the micromechanics of the cell division apparatus., Shimamoto Y., Methods Cell Biol. January 1, 2018; 145 173-190.
	Maturation of Xenopus laevis oocytes under cadmium and lead exposures: Cell biology investigations., Slaby S., Aquat Toxicol. December 1, 2017; 193 105-110.
	Regulation of mitotic spindle assembly factor NuMA by Importin-β., Chang CC., J Cell Biol. November 6, 2017; 216 (11): 3453-3462.
	Structural insight into the XTACC3/XMAP215 interaction from CD and NMR studies on model peptides., Partida-Hanon A., Biopolymers. November 1, 2017; 107 (11):
	hmmr mediates anterior neural tube closure and morphogenesis in the frog Xenopus., Prager A., Dev Biol. October 1, 2017; 430 (1): 188-201.
	High-quality frozen extracts of Xenopus laevis eggs reveal size-dependent control of metaphase spindle micromechanics., Takagi J., Mol Biol Cell. August 1, 2017; 28 (16): 2170-2177.
	Stimulation of microtubule-based transport by nucleation of microtubules on pigment granules., Semenova I., Mol Biol Cell. June 1, 2017; 28 (11): 1418-1425.
	The MgcRacGAP SxIP motif tethers Centralspindlin to microtubule plus ends in Xenopus laevis., Breznau EB., J Cell Sci. May 15, 2017; 130 (10): 1809-1821.
	Bridging length scales to measure polymer assembly., Kaye B., Mol Biol Cell. May 15, 2017; 28 (10): 1379-1388.
	Xenopus laevis Kif18A is a highly processive kinesin required for meiotic spindle integrity., Möckel MM., Biol Open. April 15, 2017; 6 (4): 463-470.
	Structural analysis of the role of TPX2 in branching microtubule nucleation., Alfaro-Aco R., J Cell Biol. April 3, 2017; 216 (4): 983-997.
	Chromatin tethering to the nuclear envelope by nuclear actin filaments: a novel role of the actin cytoskeleton in the Xenopus blastula., Oda H., Genes Cells. April 1, 2017; 22 (4): 376-391.
	Automated mitotic spindle tracking suggests a link between spindle dynamics, spindle orientation, and anaphase onset in epithelial cells., Larson ME., Mol Biol Cell. March 15, 2017; 28 (6): 746-759.
	Bub1 targeting to centromeres is sufficient for Sgo1 recruitment in the absence of kinetochores., Williams SJ., Chromosoma. March 1, 2017; 126 (2): 279-286.
	The Consequences of Chromosome Segregation Errors in Mitosis and Meiosis., Potapova T., Biology (Basel). February 8, 2017; 6 (1):
	Mechanical properties of spindle poles are symmetrically balanced., Suzuki K., Biophys Physicobiol. January 24, 2017; 14 1-11.
	A sequential multi-target Mps1 phosphorylation cascade promotes spindle checkpoint signaling., Ji Z., Elife. January 10, 2017; 6
	Probing the biology of cell boundary conditions through confinement of Xenopus cell-free cytoplasmic extracts., Bermudez JG., Genesis. January 1, 2017; 55 (1-2):
	Xenopus as a model for studies in mechanical stress and cell division., Stooke-Vaughan GA., Genesis. January 1, 2017; 55 (1-2):
	The Power of Xenopus Egg Extract for Reconstitution of Centromere and Kinetochore Function., French BT., Prog Mol Subcell Biol. January 1, 2017; 56 59-84.
	Spindle-to-Cortex Communication in Cleaving Frog Eggs., Mitchison TJ., Cold Spring Harb Symp Quant Biol. January 1, 2017; 82 165-171.
	TPX2 promotes glioma cell proliferation and invasion via activation of the AKT signaling pathway., Gu JJ., Oncol Lett. December 1, 2016; 12 (6): 5015-5022.
	Heterogeneous architecture of vertebrate kinetochores revealed by three-dimensional superresolution fluorescence microscopy., Wynne DJ., Mol Biol Cell. November 7, 2016; 27 (22): 3395-3404.
	Spindle function in Xenopus oocytes involves possible nanodomain calcium signaling., Li R., Mol Biol Cell. November 1, 2016; 27 (21): 3273-3283.
	The C-terminal domain of TPX2 is made of alpha-helical tandem repeats., Sanchez-Pulido L., BMC Struct Biol. October 26, 2016; 16 (1): 17.
	The sequential activation of the mitotic microtubule assembly pathways favors bipolar spindle formation., Cavazza T., Mol Biol Cell. October 1, 2016; 27 (19): 2935-45.
	Gamma-tubulin coordinates nuclear envelope assembly around chromatin., Rosselló CA., Heliyon. September 24, 2016; 2 (9): e00166.
	Correction: Mitotic noncoding RNA processing promotes kinetochore and spindle assembly in Xenopus., Grenfell AW., J Cell Biol. September 12, 2016; 214 (6): 783.
	Mitotic noncoding RNA processing promotes kinetochore and spindle assembly in Xenopus., Grenfell AW., J Cell Biol. July 18, 2016; 214 (2): 133-41.
	From meiosis to mitosis - the sperm centrosome defines the kinetics of spindle assembly after fertilization in Xenopus., Cavazza T., J Cell Sci. July 1, 2016; 129 (13): 2538-47.
	Mechanisms of Mitotic Spindle Assembly., Petry S., Annu Rev Biochem. June 2, 2016; 85 659-83.
	Identification of anti-cancer chemical compounds using Xenopus embryos., Tanaka M., Cancer Sci. June 1, 2016; 107 (6): 803-11.
	Myosin-10 independently influences mitotic spindle structure and mitotic progression., Sandquist JC., Cytoskeleton (Hoboken). June 1, 2016; 73 (7): 351-64.
	Centromeric Transcription Regulates Aurora-B Localization and Activation., Blower MD., Cell Rep. May 24, 2016; 15 (8): 1624-33.
	The far C-terminus of MCAK regulates its conformation and spindle pole focusing., Zong H., Mol Biol Cell. May 1, 2016; 27 (9): 1451-64.
	A versatile multivariate image analysis pipeline reveals features of Xenopus extract spindles., Grenfell AW., J Cell Biol. April 11, 2016; 213 (1): 127-36.
	Formin Is Associated with Left-Right Asymmetry in the Pond Snail and the Frog., Davison A., Curr Biol. March 7, 2016; 26 (5): 654-60.
	Identification and Characterization of Mitotic Spindle-Localized Transcripts., Emerman AB., Methods Mol Biol. January 1, 2016; 1413 303-24.
	Assays to Study Mitotic Centrosome and Spindle Pole Assembly and Regulation., Joukov V., Methods Mol Biol. January 1, 2016; 1413 207-35.
	A Cell-Free System for Real-Time Analyses of Centriole Disengagement and Centriole-to-Centrosome Conversion., Soni RK., Methods Mol Biol. January 1, 2016; 1413 197-206.
	In Vitro Kinetochore Assembly., Miell MD., Methods Mol Biol. January 1, 2016; 1413 111-33.
	Encapsulation of Xenopus Egg and Embryo Extract Spindle Assembly Reactions in Synthetic Cell-Like Compartments with Tunable Size., Good MC., Methods Mol Biol. January 1, 2016; 1413 87-108.
	Visualizing and Analyzing Branching Microtubule Nucleation Using Meiotic Xenopus Egg Extracts and TIRF Microscopy., King M., Methods Mol Biol. January 1, 2016; 1413 77-85.
	Use of Xenopus cell-free extracts to study size regulation of subcellular structures., Jevtić P., Int J Dev Biol. January 1, 2016; 60 (7-8-9): 277-288.
	Aurora-A: an expedition to the pole of the spindle in Xenopus egg extracts., Kubiak JZ., Int J Dev Biol. January 1, 2016; 60 (7-8-9): 255-261.

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