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Biochemical reconstitutions reveal principles of human γ-TuRC assembly and function

Michał W. Wieczorek, Shih-Chieh Ti, L. Urnavicius, Kelly R. Molloy, Amol Aher, Brian T. Chait, Tarun M. Kapoor

2021The Journal of Cell Biology37 citationsDOIOpen Access PDF

Abstract

The formation of cellular microtubule networks is regulated by the γ-tubulin ring complex (γ-TuRC). This ∼2.3 MD assembly of >31 proteins includes γ-tubulin and GCP2-6, as well as MZT1 and an actin-like protein in a "lumenal bridge" (LB). The challenge of reconstituting the γ-TuRC has limited dissections of its assembly and function. Here, we report a biochemical reconstitution of the human γ-TuRC (γ-TuRC-GFP) as a ∼35 S complex that nucleates microtubules in vitro. In addition, we generate a subcomplex, γ-TuRCΔLB-GFP, which lacks MZT1 and actin. We show that γ-TuRCΔLB-GFP nucleates microtubules in a guanine nucleotide-dependent manner and with similar efficiency as the holocomplex. Electron microscopy reveals that γ-TuRC-GFP resembles the native γ-TuRC architecture, while γ-TuRCΔLB-GFP adopts a partial cone shape presenting only 8-10 γ-tubulin subunits and lacks a well-ordered lumenal bridge. Our results show that the γ-TuRC can be reconstituted using a limited set of proteins and suggest that the LB facilitates the self-assembly of regulatory interfaces around a microtubule-nucleating "core" in the holocomplex.

Topics & Concepts

MicrotubuleBiologyTubulinCell biologyGreen fluorescent proteinBiophysicsBiochemistryGeneMicrotubule and mitosis dynamicsPhotosynthetic Processes and MechanismsProtist diversity and phylogeny
Biochemical reconstitutions reveal principles of human γ-TuRC assembly and function | Litcius