Physical aspects of the growth and regulation of microtubule structures

1 March 1993

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 70 (9) , 1347-1350
https://doi.org/10.1103/physrevlett.70.1347

Abstract

The growth of microtubules through the so-called dynamical instability is analyzed within a simple theoretical model in which the polymers are nucleated by a flat surface. For an isolated microtubule the model predicts the existence of a transition between bounded and unbounded growth. It is also shown that this transition alters the assembly of dense structures, e.g., by drastically limiting the number of long microtubules grown from the surface. Coupled to the microscopic biochemical control of the growth, such physical effects seem to play an important role in the regulation of the formation of cellular structures (such as the mitotic spindle).

Keywords

This publication has 11 references indexed in Scilit:

Control of microtubule dynamics and length by cyclin A- and cyclin B-dependent kinases in Xenopus egg extracts.
The Journal of cell biology, 1992
Dilution of individual microtubules observed in real time in vitro: evidence that cap size is small and independent of elongation rate.
The Journal of cell biology, 1991
Solutions to the mean-field equations of branchless diffusion-limited aggregation
Physical Review A, 1990
Real-time visualization of cell cycle-dependent changes in microtubule dynamics in cytoplasmic extracts
Cell, 1990
Mitosis
Science, 1989
Dynamic instability of individual microtubules analyzed by video light microscopy: rate constants and transition frequencies.
The Journal of cell biology, 1988
Role of nucleotide hydrolysis in the polymerization of actin and tubulin
Cell Biochemistry and Biophysics, 1988
Diffusion-limited aggregation without branching in the continuum approximation
Physical Review A, 1986
Dynamic instability of microtubule growth
Nature, 1984
Microtubules
Published by Springer Nature ,1984