Damage-repair events increase the instability of cortical microtubules in Arabidopsis.

Abstract

Microtubules rely on dynamic assembly and disassembly for their functions. Increasing evidences support that the damage-repair of microtubule lattices can affect microtubule dynamics in vitro and in animal cells. Here we successfully established a way for visualizing damage-repair sites on microtubule lattices in plant cells, via labeling the tubulin proteins with the photoconvertible fluorescent protein mEOS3.2. We observed that the crossovers of the microtubule lattice were more prone to be damaged and repaired, with the frequency of damage-repair events positively correlated with the crossing angle between microtubules. The microtubules with damage-repair events displayed shorter lifespans and significantly increased severing frequency compared with the undamaged microtubules. These observations suggested that the damage-repair events promoted instability of cortical microtubules in plant cells.