Microtubule stabilization in vivo by nucleation-incompetent {gamma}-tubulin complex.
Although the fission yeast Schizosaccharomyces pombe contains many of the γ-tubulin ring complex (γ-TuRC)-specific proteins of the γ-tubulin complex (γ-TuC), several questions about the organizational state and function of the fission yeast γ-TuC in vivo remain unresolved. Using 3×GFP-tagged γ-TuRC-specific proteins, we show here that γ-TuRC-specific proteins are present at ... all microtubule organizing centers in fission yeast and that association of γ-TuRC-specific proteins with the γ-tubulin small complex (γ-TuSC) does not depend on Mto1, which is a key regulator of the γ-TuC. Through sensitive imaging in mto1Δ mutants, in which cytoplasmic microtubule nucleation is abolished, we unexpectedly found that γ-TuC incapable of nucleating microtubules can nevertheless associate with microtubule minus-ends in vivo. The presence of γ-TuC at microtubule ends is independent of γ-TuRC-specific proteins and strongly correlates with the stability of microtubule ends. Strikingly, microtubule bundles lacking γ-TuC at microtubule ends undergo extensive treadmilling in vivo, apparently induced by geometrical constraints on plus-end growth. Our results indicate that microtubule stabilization by the γ-TuC, independently of its nucleation function, is important for maintaining the organization and dynamic behavior of microtubule arrays in vivo.
J. Cell. Sci.
Date: Apr. 15, 2011
PubMed ID: 21444751
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