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  • Divergent microtubule assembly rates after short- versus long-term loss of end-modulating kinesins.

Divergent microtubule assembly rates after short- versus long-term loss of end-modulating kinesins.

Molecular biology of the cell (2016-02-26)
Linda Wordeman, Justin Decarreau, Juan Jesus Vicente, Michael Wagenbach
ABSTRACT

Depletion of microtubule (MT) regulators can initiate stable alterations in MT assembly rates that affect chromosome instability and mitotic spindle function, but the manner by which cellular MT assembly rates can stably increase or decrease is not understood. To investigate this phenomenon, we measured the response of microtubule assembly to both rapid and long-term loss of MT regulators MCAK/Kif2C and Kif18A. Depletion of MCAK/Kif2C by siRNA stably decreases MT assembly rates in mitotic spindles, whereas depletion of Kif18A stably increases rates of assembly. Surprisingly, this is not phenocopied by rapid rapamycin-dependent relocalization of MCAK/Kif2C and Kif18A to the plasma membrane. Instead, this treatment yields opposite affects on MT assembly. Rapidly increased MT assembly rates are balanced by a decrease in nucleated microtubules, whereas nucleation appears to be maximal and limiting for decreased MT assembly rates and also for long-term treatments. We measured amplified tubulin synthesis during long-term depletion of MT regulators and hypothesize that this is the basis for different phenotypes arising from long-term versus rapid depletion of MT regulators.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Anti-α-Tubulin antibody, Mouse monoclonal, clone DM1A, purified from hybridoma cell culture
Sigma-Aldrich
Monoclonal Anti-TUBB antibody produced in mouse, clone 3B3, purified immunoglobulin, buffered aqueous solution