FLUCTUATING MOTOR FORCES BEND GROWING MICROTUBULES. Academic Article

abstract

• Despite their rigidity, microtubules in living cells bend significantly during polymerization resulting in greater curvature than can be explained by thermal forces alone. However, the source of the non-thermal forces that bend growing microtubules remains obscure. We analyzed the motion of microtubule tips in NIH-3T3 fibroblasts expressing EGFP-EB1, a fluorescent +TIP protein that specifically binds to the growing ends of microtubules. We found that dynein inhibition significantly reduced the deviation of the growing tip from its initial trajectory. Inhibiting myosin modestly reduced tip fluctuations, while simultaneous myosin and dynein inhibition caused no further decrease in fluctuations compared to dynein inhibition alone. Our results can be interpreted with a model in which dynein linkages play a key role in generating and transmitting fluctuating forces that bend growing microtubules.

authors

• Lele, Tanmay

published proceedings

• Cell Mol Bioeng

author list (cited authors)

• Shekhar, N., Neelam, S., Wu, J., Ladd, A. J., Dickinson, R. B., & Lele, T. P.

citation count

• 10

complete list of authors

• Shekhar, Nandini||Neelam, Srujana||Wu, Jun||Ladd, Anthony Jc||Dickinson, Richard B||Lele, Tanmay P

publication date

• June 2013

publisher

• Springer Nature  Publisher

published in

• Cellular and Molecular Bioengineering  Journal

keywords

• Dynein
• Microtubule Bending
• Myosin

PubMed Central ID

• 24039637

Digital Object Identifier (DOI)

• 10.1007/s12195-013-0281-z

start page

• 120

end page

• 129

volume

• 6

issue

• 2

URL

• http://dx.doi.org/10.1007/s12195-013-0281-z