6EVZ
Cryo-EM structure of GDP-microtubule co-polymerised with doublecortin
Summary for 6EVZ
Entry DOI | 10.2210/pdb6evz/pdb |
EMDB information | 3961 3962 3963 3964 |
Descriptor | Tubulin beta chain, Tubulin alpha-1B chain, GUANOSINE-5'-DIPHOSPHATE, ... (5 entities in total) |
Functional Keywords | microtubule, gtpase, tubulin, structural protein |
Biological source | Sus scrofa (Pig) More |
Total number of polymer chains | 12 |
Total formula weight | 606617.41 |
Authors | Manka, S.W. (deposition date: 2017-11-03, release date: 2018-07-04, Last modification date: 2024-05-15) |
Primary citation | Manka, S.W.,Moores, C.A. The role of tubulin-tubulin lattice contacts in the mechanism of microtubule dynamic instability. Nat. Struct. Mol. Biol., 25:607-615, 2018 Cited by PubMed Abstract: Microtubules form from longitudinally and laterally assembling tubulin α-β dimers. The assembly induces strain in tubulin, resulting in cycles of microtubule catastrophe and regrowth. This 'dynamic instability' is governed by GTP hydrolysis that renders the microtubule lattice unstable, but it is unclear how. We used a human microtubule nucleating and stabilizing neuronal protein, doublecortin, and high-resolution cryo-EM to capture tubulin's elusive hydrolysis intermediate GDP•Pi state, alongside the prehydrolysis analog GMPCPP state and the posthydrolysis GDP state with and without an anticancer drug, Taxol. GTP hydrolysis to GDP•Pi followed by Pi release constitutes two distinct structural transitions, causing unevenly distributed compressions of tubulin dimers, thereby tightening longitudinal and loosening lateral interdimer contacts. We conclude that microtubule catastrophe is triggered because the lateral contacts can no longer counteract the strain energy stored in the lattice, while reinforcement of the longitudinal contacts may support generation of force. PubMed: 29967541DOI: 10.1038/s41594-018-0087-8 PDB entries with the same primary citation |
Experimental method | ELECTRON MICROSCOPY (3.8 Å) |
Structure validation
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