Computer simulation of flagellar movement X: Doublet pair splitting and bend propagation modeled using stochastic dynein kinetics (English)
- New search for: Brokaw, Charles J.
- New search for: Brokaw, Charles J.
In:
Cytoskeleton
;
71
, 4
;
273-284
;
2014
- Article (Journal) / Electronic Resource
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Title:Computer simulation of flagellar movement X: Doublet pair splitting and bend propagation modeled using stochastic dynein kinetics
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Contributors:Brokaw, Charles J. ( author )
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Published in:Cytoskeleton ; 71, 4 ; 273-284
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Publisher:
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Publication date:2014-04-01
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Size:12 pages
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ISSN:
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DOI:
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Type of media:Article (Journal)
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Type of material:Electronic Resource
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Language:English
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Keywords:
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Source:
Table of contents – Volume 71, Issue 4
The tables of contents are generated automatically and are based on the data records of the individual contributions available in the index of the TIB portal. The display of the Tables of Contents may therefore be incomplete.
- 211
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Insights into the effects of disease‐causing mutations in human actinsRubenstein, Peter A. / Wen, Kuo‐Kuang et al. | 2014
- 230
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A new directionality tool for assessing microtubule pattern alterationsLiu, Wenhua / Ralston, Evelyn et al. | 2014
- 241
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Cell fusion mediates dramatic alterations in the actin cytoskeleton, focal adhesions, and E‐cadherin in trophoblastic cellsIshikawa, Atsuko / Omata, Waka / Ackerman, William E. IV / Takeshita, Toshiyuki / Vandré, Dale D. / Robinson, John M. et al. | 2014
- 257
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Phosphorylation of α‐tubulin by protein kinase C stimulates microtubule dynamics in human breast cellsDe, Shatarupa / Tsimounis, Areti / Chen, Xiangyu / Rotenberg, Susan A. et al. | 2014
- 273
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Computer simulation of flagellar movement X: Doublet pair splitting and bend propagation modeled using stochastic dynein kineticsBrokaw, Charles J. et al. | 2014