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Length control of microtubules by depolymerizing motor proteins
B.S. Govindan, , D. Chowdhury
Published in IOP PUBLISHING LTD
2008
Volume: 83
   
Issue: 4
Abstract
In many intracellular processes, the length distribution of microtubules is controlled by depolymerizing motor proteins. Experiments have shown that, following non-specific binding to the surface of a microtubule, depolymerizers are transported to the microtubule tip(s) by diffusion or directed walk and, then, depolymerize the microtubule from the tip(s) after accumulating there. We develop a quantitative model to study the depolymerizing action of such a generic motor protein, and its possible effects on the length distribution of microtubules. We show that, when the motor protein concentration in solution exceeds a critical value, a steady state is reached where the length distribution is, in general, non-monotonic with a single peak. However, for highly processive motors and large motor densities, this distribution effectively becomes an exponential decay. Our findings suggest that such motor proteins may be selectively used by the cell to ensure precise control of MT lengths. The model is also used to analyze experimental observations of motor-induced depolymerization. © 2008 Europhysics Letters Association.
About the journal
JournalEPL
PublisherIOP PUBLISHING LTD
ISSN02955075
Open AccessNo