Kinetochore life histories reveal an Aurora-B-dependent error correction mechanism in anaphase
Onur Sen, Jonathan U. Harrison, Nigel J. Burroughs, Andrew D. McAinsh
Abstract
kinetochores. By defining the "laziness" of kinetochores in anaphase, we reveal that chromosomes are at a considerable risk of mis-segregation. We show that the majority of lazy kinetochores are corrected rapidly in anaphase by Aurora B; if uncorrected, they result in a higher rate of micronuclei formation. Quantitative analyses of the kinetochore life histories reveal a dynamic signature of metaphase kinetochore oscillations that forecasts their anaphase fate. We propose that in diploid human cells chromosome segregation is fundamentally error prone, with an additional layer of anaphase error correction required for stable karyotype propagation.
Topics & Concepts
KinetochoreAnaphaseBiologySpindle checkpointChromosome segregationMad2Cell biologyCentromereAurora B kinaseGeneticsAneuploidyMitosisMetaphaseCohesinChromosomeGeneMicrotubule and mitosis dynamicsGenomics and Chromatin DynamicsPhotosynthetic Processes and Mechanisms