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In vitro reconstitution of branching microtubule nucleation

Ammarah Tariq, Lucy Green, J. Charles G. Jeynes, Christian Soeller, James G. Wakefield

2020eLife45 citationsDOIOpen Access PDF

Abstract

Eukaryotic cell division requires the mitotic spindle, a microtubule (MT)-based structure which accurately aligns and segregates duplicated chromosomes. The dynamics of spindle formation are determined primarily by correctly localising the MT nucleator, γ-Tubulin Ring Complex (γ-TuRC), within the cell. A conserved MT-associated protein complex, Augmin, recruits γ-TuRC to pre-existing spindle MTs, amplifying their number, in an essential cellular phenomenon termed ‘branching’ MT nucleation. Here, we purify endogenous, GFP-tagged Augmin and γ-TuRC from Drosophila embryos to near homogeneity using a novel one-step affinity technique. We demonstrate that, in vitro, while Augmin alone does not affect Tubulin polymerisation dynamics, it stimulates γ-TuRC-dependent MT nucleation in a cell cycle-dependent manner. We also assemble and visualise the MT-Augmin-γ-TuRC-MT junction using light microscopy. Our work therefore conclusively reconstitutes branching MT nucleation. It also provides a powerful synthetic approach with which to investigate the emergence of cellular phenomena, such as mitotic spindle formation, from component parts.

Topics & Concepts

MicrotubuleMitosisMicrotubule nucleationTubulinCell biologyCell divisionBiologySpindle apparatusNucleationBiophysicsChromosome segregationCentrosomeCell cycleChemistryCellGeneticsChromosomeGeneOrganic chemistryMicrotubule and mitosis dynamicsGenomics and Chromatin DynamicsPhotosynthetic Processes and Mechanisms
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