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High-resolution microtubule structures reveal the structural transitions in ??-tubulin upon GTP hydrolysis.


ABSTRACT: Dynamic instability, the stochastic switching between growth and shrinkage, is essential for microtubule function. This behavior is driven by GTP hydrolysis in the microtubule lattice and is inhibited by anticancer agents like Taxol. We provide insight into the mechanism of dynamic instability, based on high-resolution cryo-EM structures (4.7-5.6 Å) of dynamic microtubules and microtubules stabilized by GMPCPP or Taxol. We infer that hydrolysis leads to a compaction around the E-site nucleotide at longitudinal interfaces, as well as movement of the ?-tubulin intermediate domain and H7 helix. Displacement of the C-terminal helices in both ?- and ?-tubulin subunits suggests an effect on interactions with binding partners that contact this region. Taxol inhibits most of these conformational changes, allosterically inducing a GMPCPP-like state. Lateral interactions are similar in all conditions we examined, suggesting that microtubule lattice stability is primarily modulated at longitudinal interfaces.

SUBMITTER: Alushin GM 

PROVIDER: S-EPMC4054694 | biostudies-literature | 2014 May

REPOSITORIES: biostudies-literature

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High-resolution microtubule structures reveal the structural transitions in αβ-tubulin upon GTP hydrolysis.

Alushin Gregory M GM   Lander Gabriel C GC   Kellogg Elizabeth H EH   Zhang Rui R   Baker David D   Nogales Eva E  

Cell 20140501 5


Dynamic instability, the stochastic switching between growth and shrinkage, is essential for microtubule function. This behavior is driven by GTP hydrolysis in the microtubule lattice and is inhibited by anticancer agents like Taxol. We provide insight into the mechanism of dynamic instability, based on high-resolution cryo-EM structures (4.7-5.6 Å) of dynamic microtubules and microtubules stabilized by GMPCPP or Taxol. We infer that hydrolysis leads to a compaction around the E-site nucleotide  ...[more]

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