Litcius/Paper detail

Cell division requires RNA eviction from condensing chromosomes

J. A. Sharp, Carlos Perea-Resa, Wei Wang, Michael D. Blower

2020The Journal of Cell Biology44 citationsDOIOpen Access PDF

Abstract

During mitosis, the genome is transformed from a decondensed, transcriptionally active state to a highly condensed, transcriptionally inactive state. Mitotic chromosome reorganization is marked by the general attenuation of transcription on chromosome arms, yet how the cell regulates nuclear and chromatin-associated RNAs after chromosome condensation and nuclear envelope breakdown is unknown. SAF-A/hnRNPU is an abundant nuclear protein with RNA-to-DNA tethering activity, coordinated by two spatially distinct nucleic acid-binding domains. Here we show that RNA is evicted from prophase chromosomes through Aurora-B-dependent phosphorylation of the SAF-A DNA-binding domain; failure to execute this pathway leads to accumulation of SAF-A-RNA complexes on mitotic chromosomes, defects in metaphase chromosome alignment, and elevated rates of chromosome missegregation in anaphase. This work reveals a role for Aurora-B in removing chromatin-associated RNAs during prophase and demonstrates that Aurora-B-dependent relocalization of SAF-A during cell division contributes to the fidelity of chromosome segregation.

Topics & Concepts

ProphaseChromatinBiologyAnaphaseMitosisCell biologyPremature chromosome condensationChromosome segregationGeneticsChromosomeDNAMolecular biologyMeiosisGeneGenomics and Chromatin DynamicsRNA Research and SplicingMicrotubule and mitosis dynamics