Role of GTP remnants in microtubule dynamics

Michael F. Hagan; Bulbul Chakraborty; Sumehda

doi:10.48550/arXiv.0908.1199

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Role of GTP remnants in microtubule dynamics

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Role of GTP remnants in microtubule dynamics

Michael F. Hagan, Bulbul Chakraborty and Sumehda

arXiv

08/09/2009

DOI: https://doi.org/10.48550/arXiv.0908.1199

Abstract

Microtubules

Biophysics

Statistical Mechanics

We study a model of microtubule assembly/disassembly in which GTP bound to tubulins within the microtubule undergoes stochastic hydrolysis. In contrast to models that only consider a cap of GTP-bound tubulin, stochastic hydrolysis allows GTP-bound tubulin remnants to exist within the microtubule. We find that these buried GTP remnants enable an alternative rescue mechanism, and enhances fluctuations of filament lengths. Our results also show that in the presence of remnants microtubule dynamics can be regulated by changing the depolymerisation rate.

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Title: Role of GTP remnants in microtubule dynamics
Creators: Michael F. Hagan (Author) - Brandeis University, Martin A. Fisher School of Physics
Bulbul Chakraborty (Author) - Brandeis University, Martin A. Fisher School of Physics
Sumehda (Author)
Publication Details: arXiv
Publisher: arXiv
Number of pages: 4
Identifiers: 9924117850601921
Academic Unit: Martin A. Fisher School of Physics; Division of Science
Resource Type: Preprint

Role of GTP remnants in microtubule dynamics

Abstract

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