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Transcriptional suppression of ribosomal DNA with phase separation

Satoru Ide, Ryosuke Imai, Hiroko Ochi, Kazuhiro Maeshima

2020Science Advances99 citationsDOIOpen Access PDF

Abstract

The nucleolus is a nuclear body with multiphase liquid droplets for ribosomal RNA (rRNA) transcription. How rRNA transcription is regulated in the droplets remains unclear. Here, using single-molecule tracking of RNA polymerase I (Pol I) and chromatin-bound upstream binding factor (UBF), we reveal suppression of transcription with phase separation. For transcription, active Pol I formed small clusters/condensates that constrained rDNA chromatin in the nucleolus fibrillar center (FC). Treatment with a transcription inhibitor induced Pol I to dissociate from rDNA chromatin and to move like a liquid within the nucleolar cap that transformed from the FC. Expression of a Pol I mutant associated with a craniofacial disorder inhibited transcription by competing with wild-type Pol I clusters and transforming the FC into the nucleolar cap. The cap droplet excluded an initiation factor, ensuring robust silencing. Our findings suggest a mechanism of rRNA transcription suppression via phase separation of intranucleolar molecules governed by Pol I.

Topics & Concepts

DNAComputational biologyRibosomal DNARibosomal RNABiologySeparation (statistics)GeneticsCell biologyGeneComputer sciencePhylogeneticsMachine learningRNA Research and SplicingRNA and protein synthesis mechanismsRNA modifications and cancer
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