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has been cited by the following articles in journals that are participating in CrossRef's forward linking service: | ||
 |  | Design Features of a Mitotic Spindle: Balancing Tension and Compression at a Single Microtubule Kinetochore Interface in Budding Yeast David C. Bouck, Ajit P. Joglekar, and Kerry S. Bloom Annual Review of Genetics (2008) 42: 335 Link to Article |
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| | EB1 regulates microtubule dynamics and tubulin sheet closure in vitro Benjamin Vitre, Frédéric M. Coquelle, Claire Heichette, Cyrille Garnier, Denis Chrétien, and Isabelle Arnal Nature Cell Biology (2008) 10: 415 Link to Article |
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| | The microtubule-based motor Kar3 and plus end binding protein Bim1 provide structural support for the anaphase spindle M. K. Gardner, J. Haase, K. Mythreye, J. N. Molk, M. Anderson, A. P. Joglekar, E. T. O'Toole, M. Winey, E.D. Salmon, and D. J. Odde The Journal of Cell Biology (2008) 180: 91 Link to Article |
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| | Dynactin Function in Mitotic Spindle Positioning Jeffrey K. Moore, Jun Li, and John A. Cooper Traffic (2008) 9: 510 Link to Article |
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| | TheDrosophila CLASP homologue, Mast/Orbit regulates the dynamic behaviour of interphase microtubules by promoting the pause state Aureliana Sousa, Rita Reis, Paula Sampaio, and Claudio E. Sunkel Cell Motility and the Cytoskeleton (2007) 64: 605 Link to Article |
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| | Microtubule-associated proteins in higher plants Takahiro Hamada Journal of Plant Research (2007) 120: 79 Link to Article |
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| | Deletion of RNQ1 gene reveals novel functional relationship between divergently transcribed Bik1p/CLIP-170 and Sfi1p in spindle pole body separation Lisa A. Strawn and Heather L. True Current Genetics (2006) 50: 347 Link to Article |
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| | Plus end-specific depolymerase activity of Kip3, a kinesin-8 protein, explains its role in positioning the yeast mitotic spindle Mohan L. Gupta, Pedro Carvalho, David M. Roof, and David Pellman Nature Cell Biology (2006) 8: 913 Link to Article |
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| | Microtubule Plus End: A Hub of Cellular Activities Gideon Lansbergen and Anna Akhmanova Traffic (2006) 7: 499 Link to Article |
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| | Molecular mechanisms of kinetochore capture by spindle microtubules Kozo Tanaka, Naomi Mukae, Hilary Dewar, Mark van Breugel, Euan K. James, Alan R. Prescott, Claude Antony, and Tomoyuki U. Tanaka Nature (2005) 434: 987 Link to Article |
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| | Functionally distinct kinesin-13 family members cooperate to regulate microtubule dynamics during interphase Vito Mennella, Gregory C. Rogers, Stephen L. Rogers, Daniel W. Buster, Ronald D. Vale, and David J. Sharp Nature Cell Biology (2005) 7: 235 Link to Article |
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| | CLIPs and CLASPs and cellular dynamics Niels Galjart Nature Reviews Molecular Cell Biology (2005) 6: 487 Link to Article |
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| | Kinetochore capture and bi-orientation on the mitotic spindle Tomoyuki U. Tanaka, Michael J. R. Stark, and Kozo Tanaka Nature Reviews Molecular Cell Biology (2005) 6: 929 Link to Article |
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| | Rings around kinetochore microtubules in yeast J Richard McIntosh Nature Structural & Molecular Biology (2005) 12: 210 Link to Article |
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| | Mini spindles, the XMAP215 homologue, suppresses pausing of interphase microtubules in Drosophila Amy L Brittle and Hiroyuki Ohkura The EMBO Journal (2005) 24: 1387 Link to Article |
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| | MECHANISMS OF POLARIZED GROWTH AND ORGANELLE SEGREGATION IN YEAST David Pruyne, Aster Legesse-Miller, Lina Gao, Yuqing Dong, and Anthony Bretscher Annual Review of Cell and Developmental Biology (2004) 20: 559 Link to Article |
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| | Microtubules become more dynamic but not shorter during preprophase band formation: A possible “search-and-capture” mechanism for microtubule translocation Jan W. Vos, Marileen Dogterom, and Anne Mie C. Emons Cell Motility and the Cytoskeleton (2004) 57: 246 Link to Article |
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| | EB1 and APC bind to mDia to stabilize microtubules downstream of Rho and promote cell migration Ying Wen, Christina H. Eng, Jan Schmoranzer, Noemi Cabrera-Poch, Edward J. S. Morris, Michael Chen, Bradley J. Wallar, Arthur S. Alberts, and Gregg G. Gundersen Nature Cell Biology (2004) 6: 820 Link to Article |
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| | Dynamic Microtubules Lead the Way for Spindle Positioning Chad G. Pearson and Kerry Bloom Nature Reviews Molecular Cell Biology (2004) 5: 481 Link to Article |
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| | Characterization of a gene similar toBIK1 in the yeastKluyveromyces lactis M. Lamas-Maceiras, M. E. Cerdán, A. Lloret, and M. A. Freire-Picos Yeast (2004) 21: 1067 Link to Article |
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| | The Ras pathway and spindle assembly collide? Marisa Segal and Duncan J. Clarke BioEssays (2001) 23: 307 Link to Article |
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| | The Ras pathway and spindle assembly collide? Marisa Segal and Duncan J. Clarke BioEssays (2001) 23: 307 Link to Article |
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| | Mutagenesis of β-tubulin cysteine residues inSaccharomyces cerevisiae: Mutation of cysteine 354 results in cold-stable microtubules Mohan L. Gupta, Claudia J. Bode, Cynthia A. Dougherty, Rebecca T. Marquez, and Richard H. Himes Cell Motility and the Cytoskeleton (2001) 49: 67 Link to Article |
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| | PKC1, a protein kinase C homologue of Saccharomyces cerevisiae, participates in microtubule function through the yeast EB1 homologue, BIM1 Tomoki Hosotani, Hirofumi Koyama, Masayuki Uchino, Tokichi Miyakawa, and Eiko Tsuchiya Genes to Cells (2001) 6: 775 Link to Article |
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| | A novel p21-activated kinase binds the actin and microtubule networks and induces microtubule stabilization J. Cau, S. Faure, M. Comps, C. Delsert, and N. Morin The Journal of Cell Biology (2001) 155: 1029 Link to Article |
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| | A role for Vps1p, actin, and the Myo2p motor in peroxisome abundance and inheritance in Saccharomyces cerevisiae D. Hoepfner, M. van den Berg, P. Philippsen, H. F. Tabak, and E. H. Hettema The Journal of Cell Biology (2001) 155: 979 Link to Article |
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| | STRUCTURAL BASIS FOR THE INTERACTION OF TUBULIN WITH PROTEINS AND DRUGS THAT AFFECT MICROTUBULE DYNAMICS1 Kenneth H. Downing Annual Review of Cell and Developmental Biology (2000) 16: 89 Link to Article |
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