Abstract
Cytoskeleton![Figure][1] New tubulin (pink) patches small holes in microtubule lattices made by severing enzymes (purple). CREDIT: JANET IWASA Microtubules are essential intracellular polymers, built from tubulin subunits, that establish cell shape, move organelles, and segregate chromosomes during cell division. Vemu et al. show that microtubule-severing enzymes extract tubulin subunits along the microtubule shaft. This nanoscale damage is repaired by the incorporation of free tubulin, which stabilizes the microtubule against depolymerization. When extraction outpaces repair, microtubules are severed, emerging with stabilized ends composed of fresh tubulin. The severed microtubules act as templates for new microtubule growth, leading to amplification of microtubule number and mass. Thus, seemingly paradoxically, severing enzymes can increase microtubule mass in processes such as neurogenesis and mitotic spindle assembly. Science , this issue p. [eaau1504][2] [1]: pending:yes [2]: /lookup/doi/10.1126/science.aau1504
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