The transition state and regulation of γ-TuRC-mediated microtubule nucleation revealed by single molecule microscopy

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Abstract

Determining how microtubules (MTs) are nucleated is essential for understanding how the cytoskeleton assembles. While the MT nucleator, g-tubulin ring complex (g-TuRC) has been identified, precisely how g-TuRC nucleates a MT remains poorly understood. Here, we developed a single molecule assay to directly visualize nucleation of a MT from purified Xenopus laevis g-TuRC. We reveal a high g-/ab-tubulin affinity, which facilitates assembly of a MT from g-TuRC. Whereas spontaneous nucleation requires assembly of 8 ab-tubulins, nucleation from g-TuRC occurs efficiently with a cooperativity of 4 ab-tubulin dimers. This is distinct from pre-assembled MT seeds, where a single dimer is sufficient to initiate growth. A computational model predicts our kinetic measurements and reveals the rate-limiting transition where laterally associated ab-tubulins drive g-TuRC into a closed conformation. NME7, TPX2, and the putative activation domain of CDK5RAP2 do not enhance g-TuRC-mediated nucleation, while XMAP215 drastically increases the nucleation efficiency by strengthening the longitudinal g-/ab-tubulin interaction.

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Thawani, A., Rale, M. J., Coudray, N., Bhabha, G., Stone, H. A., Shaevitz, J. W., & Petry, S. (2020). The transition state and regulation of γ-TuRC-mediated microtubule nucleation revealed by single molecule microscopy. ELife, 9, 1–34. https://doi.org/10.7554/eLife.54253

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