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Leaving no-one behind: how CENP-E facilitates chromosome alignment

Benjamin Craske, Julie P. I. Welburn

2020Essays in Biochemistry64 citationsDOIOpen Access PDF

Abstract

Chromosome alignment and biorientation is essential for mitotic progression and genomic stability. Most chromosomes align at the spindle equator in a motor-independent manner. However, a subset of polar kinetochores fail to bi-orient and require a microtubule motor-based transport mechanism to move to the cell equator. Centromere Protein E (CENP-E/KIF10) is a kinesin motor from the Kinesin-7 family, which localizes to unattached kinetochores during mitosis and utilizes plus-end directed microtubule motility to slide mono-oriented chromosomes to the spindle equator. Recent work has revealed how CENP-E cooperates with chromokinesins and dynein to mediate chromosome congression and highlighted its role at aligned chromosomes. Additionally, we have gained new mechanistic insights into the targeting and regulation of CENP-E motor activity at the kinetochore. Here, we will review the function of CENP-E in chromosome congression, the pathways that contribute to CENP-E loading at the kinetochore, and how CENP-E activity is regulated during mitosis.

Topics & Concepts

KinetochoreCell biologyMitosisChromosome segregationKinesinSpindle pole bodyBiologyMicrotubuleCentromereAurora B kinaseSpindle apparatusMotor proteinDyneinChromosomeGeneticsCell divisionCellGeneMicrotubule and mitosis dynamicsGenomics and Chromatin DynamicsChromosomal and Genetic Variations
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