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Structural model for differential cap maturation at growing microtubule ends

Juan Estévez‐Gallego, Fernando Josa‐Prado, Siou Ku, Rubén M. Buey, Francisco de Asís Balaguer, A.E. Prota, Daniel Lucena‐Agell, Christina S. Kamma‐Lorger, Toshiki Yagi, Hiroyuki Iwamoto, Laurence Duchesne, Isabel Barasoaı́n, Michel O. Steinmetz, Denis Chrétien, Shinji Kamimura, J. Fernando Dı́az, María A. Oliva

2020eLife71 citationsDOIOpen Access PDF

Abstract

Microtubules (MTs) are hollow cylinders made of tubulin, a GTPase responsible for essential functions during cell growth and division, and thus, key target for anti-tumor drugs. In MTs, GTP hydrolysis triggers structural changes in the lattice, which are responsible for interaction with regulatory factors. The stabilizing GTP-cap is a hallmark of MTs and the mechanism of the chemical-structural link between the GTP hydrolysis site and the MT lattice is a matter of debate. We have analyzed the structure of tubulin and MTs assembled in the presence of fluoride salts that mimic the GTP-bound and GDP•Pi transition states. Our results challenge current models because tubulin does not change axial length upon GTP hydrolysis. Moreover, analysis of the structure of MTs assembled in the presence of several nucleotide analogues and of taxol allows us to propose that previously described lattice expansion could be a post-hydrolysis stage involved in Pi release.

Topics & Concepts

GTPaseGTP'TubulinMicrotubuleBiophysicsNucleotideGuanosine triphosphateChemistryCell biologyStereochemistryBiologyBiochemistryEnzymeGeneMicrotubule and mitosis dynamicsPhotosynthetic Processes and MechanismsDNA Repair Mechanisms
Structural model for differential cap maturation at growing microtubule ends | Litcius