The Aurora B gradient sustains kinetochore stability in anaphase

Kinetochores assemble on chromosomes in mitosis to allow microtubules to attach and bring about accurate chromosome segregation. The kinases Cyclin B-Cdk1 and Aurora B are crucial for the formation of stable kinetochores. However, the activity of these two kinases appears to decline dramatically at centromeres during anaphase onset, precisely when microtubule attachments are required to move chromosomes toward opposite poles of the dividing cell. We find that, although Aurora B leaves centromeres at anaphase, a gradient of Aurora B activity centered on the central spindle is still able to phosphorylate kinetochore substrates such as Dsn1 to modulate kinetochore stability in anaphase and to regulate kinetochore disassembly as cells enter telophase. We provide a model to explain how Aurora B co-operates with Cyclin B-Cdk1 to maintain kinetochore function in anaphase.

Automated summary

Aurora B and Cyclin B-Cdk1 are crucial for stable kinetochore formation in mitosis, especially during anaphase. Despite Aurora B leaving centromeres during anaphase, a gradient of Aurora B activity centered on the central spindle continues to modulate kinetochore stability and function.