Dynamic bonds and polar ejection force distribution explain kinetochore oscillations in PtK1 cells
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Title
Dynamic bonds and polar ejection force distribution explain kinetochore oscillations in PtK1 cells
Authors
Keywords
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Journal
JOURNAL OF CELL BIOLOGY
Volume 201, Issue 4, Pages 577-593
Publisher
Rockefeller University Press
Online
2013-05-14
DOI
10.1083/jcb.201301022
References
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- (2012) Xiaohu Wan et al. MOLECULAR BIOLOGY OF THE CELL
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- (2012) S. Dumont et al. SCIENCE
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- (2011) Valentin Magidson et al. CELL
- Springs, clutches and motors: driving forward kinetochore mechanism by modelling
- (2011) Elina Vladimirou et al. CHROMOSOME RESEARCH
- A Tethering Mechanism Controls the Processivity and Kinetochore-Microtubule Plus-End Enrichment of the Kinesin-8 Kif18A
- (2011) Jason Stumpff et al. MOLECULAR CELL
- Length-dependent dynamics of microtubules
- (2011) Vandana Yadav et al. PHYSICAL REVIEW E
- Anaphase B spindle dynamics in Drosophila S2 cells: Comparison with embryo spindles
- (2011) Jane de Lartigue et al. Cell Division
- Kinetochore alignment within the metaphase plate is regulated by centromere stiffness and microtubule depolymerases
- (2010) Khuloud Jaqaman et al. JOURNAL OF CELL BIOLOGY
- Tension directly stabilizes reconstituted kinetochore-microtubule attachments
- (2010) Bungo Akiyoshi et al. NATURE
- Dynein at the kinetochore: Timing, Interactions and Functions
- (2010) Jason R. Bader et al. SEMINARS IN CELL & DEVELOPMENTAL BIOLOGY
- Kinetochores’ gripping feat: conformational wave or biased diffusion?
- (2010) Charles L. Asbury et al. TRENDS IN CELL BIOLOGY
- The Ndc80 Kinetochore Complex Forms Load-Bearing Attachments to Dynamic Microtubule Tips via Biased Diffusion
- (2009) Andrew F. Powers et al. CELL
- Kinesin-8 Motors Act Cooperatively to Mediate Length-Dependent Microtubule Depolymerization
- (2009) Vladimir Varga et al. CELL
- Chromosome Segregation: Ndc80 Can Carry the Load
- (2009) Ajit P. Joglekar et al. CURRENT BIOLOGY
- The Distribution of Polar Ejection Forces Determines the Amplitude of Chromosome Directional Instability
- (2009) Kevin Ke et al. CURRENT BIOLOGY
- Ase1/Prc1-dependent spindle elongation corrects merotely during anaphase in fission yeast
- (2009) Thibault Courtheoux et al. JOURNAL OF CELL BIOLOGY
- Kinetochore stretching inactivates the spindle assembly checkpoint
- (2009) Kazuhiko S.K. Uchida et al. JOURNAL OF CELL BIOLOGY
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- (2009) Thomas J. Maresca et al. JOURNAL OF CELL BIOLOGY
- Aneuploidy in mitosis of PtK1 cells is generated by random loss and nondisjunction of individual chromosomes
- (2009) L. Torosantucci et al. JOURNAL OF CELL SCIENCE
- Fibrils Connect Microtubule Tips with Kinetochores: A Mechanism to Couple Tubulin Dynamics to Chromosome Motion
- (2008) J. Richard McIntosh et al. CELL
- Molecular architecture of the kinetochore–microtubule interface
- (2007) Iain M. Cheeseman et al. NATURE REVIEWS MOLECULAR CELL BIOLOGY
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