Mechanisms of kinesin‐7 CENP‐E in kinetochore–microtubule capture and chromosome alignment during cell division

Chromosome congression is essential for faithful chromosome segregation and genomic stability in cell division. Centromere‐associated protein E (CENP‐E), a plus‐end‐directed kinesin motor, is required for congression of pole‐proximal chromosomes in metaphase. CENP‐E accumulates at the outer plate of kinetochores and mediates the kinetochore‐microtubule capture. CENP‐E also transports the chromosomes along spindle microtubules towards the equatorial plate. CENP‐E interacts with Bub1‐related kinase, Aurora B and core kinetochore components during kinetochore–microtubule attachment. In this review, we introduce the structures and mechanochemistry of kinesin‐7 CENP‐E. We highlight the complicated interactions between CENP‐E and partner proteins during chromosome congression. We summarise the detailed roles and mechanisms of CENP‐E in mitosis and meiosis, including the kinetochore–microtubule capture, chromosome congression/alignment in metaphase and the regulation of spindle assembly checkpoint. We also shed a light on the roles of CENP‐E in tumourigenesis and CENP‐E's specific inhibitors.