Abstract
The Ndc80 complex is a key site of regulated kinetochore-microtubule attachment, but the molecular mechanism underlying its function remains unknown. Here we present a subnanometer resolution cryo-electron microscopy reconstruction of the human Ndc80 complex bound to microtubules, sufficient for precise docking of crystal structures of the component proteins. We find that Ndc80 binds the microtubule with a tubulin monomer repeat, recognizing α- and β-tubulin at both intra- and inter-dimer interfaces in a manner that is sensitive to tubulin conformation. Furthermore, Ndc80 complexes self-associate along protofilaments via interactions mediated by the amino-terminal tail of the Ndc80 protein, the site of phospho-regulation by the Aurora B kinase. Ndc80's mode of interaction with the microtubule and its oligomerization suggest a mechanism by which Aurora B could regulate the stability of load-bearing Ndc80-microtubule attachments.
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