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

Akanksha Thawani, Michael J Rale, Nicolas Coudray, Gira Bhabha, Howard A. Stone, Joshua W. Shaevitz, Sabine Petry

2020eLife67 citationsDOIOpen Access PDF

Abstract

Determining how microtubules (MTs) are nucleated is essential for understanding how the cytoskeleton assembles. While the MT nucleator, γ-tubulin ring complex (γ-TuRC) has been identified, precisely how γ-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 γ-TuRC. We reveal a high γ-/αβ-tubulin affinity, which facilitates assembly of a MT from γ-TuRC. Whereas spontaneous nucleation requires assembly of 8 αβ-tubulins, nucleation from γ-TuRC occurs efficiently with a cooperativity of 4 αβ-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 αβ-tubulins drive γ-TuRC into a closed conformation. NME7, TPX2, and the putative activation domain of CDK5RAP2 do not enhance γ-TuRC-mediated nucleation, while XMAP215 drastically increases the nucleation efficiency by strengthening the longitudinal γ-/αβ-tubulin interaction.

Topics & Concepts

MicrotubuleNucleationMicrotubule nucleationTubulinCooperativityXenopusBiophysicsDimerCytoskeletonChemistryCrystallographyBiologyCell biologyCentrosomeBiochemistryCellGeneCell cycleOrganic chemistryMicrotubule and mitosis dynamicsAdvanced Electron Microscopy Techniques and ApplicationsAdvanced Fluorescence Microscopy Techniques
The transition state and regulation of γ-TuRC-mediated microtubule nucleation revealed by single molecule microscopy | Litcius