| Literature DB >> 31540874 |
Run-Wen Yao1, Guang Xu1, Ying Wang2, Lin Shan1, Peng-Fei Luan1, Yang Wang1, Man Wu1, Liang-Zhong Yang1, Yu-Hang Xing1, Li Yang3, Ling-Ling Chen4.
Abstract
Fibrillar centers (FCs) and dense fibrillar components (DFCs) are essential morphologically distinct sub-regions of mammalian cell nucleoli for rDNA transcription and pre-rRNA processing. Here, we report that a human nucleolus consists of several dozen FC/DFC units, each containing 2-3 transcriptionally active rDNAs at the FC/DFC border. Pre-rRNA processing factors, such as fibrillarin (FBL), form 18-24 clusters that further assemble into the DFC surrounding the FC. Mechanistically, the 5' end of nascent 47S pre-rRNA binds co-transcriptionally to the RNA-binding domain of FBL. FBL diffuses to the DFC, where local self-association via its glycine- and arginine-rich (GAR) domain forms phase-separated clusters to immobilize FBL-interacting pre-rRNA, thus promoting directional traffic of nascent pre-rRNA while facilitating pre-rRNA processing and DFC formation. These results unveil FC/DFC ultrastructures in nucleoli and suggest a conceptual framework for considering nascent RNA sorting using multivalent interactions of their binding proteins.Entities:
Keywords: Fibrillarin; RNA binding domain; RNA sorting; condensates; glycine- and arginine-rich; intrinsically disordered region; nucleolus; phase separation; ribosomal RNA; super-resolution microscopy
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Year: 2019 PMID: 31540874 DOI: 10.1016/j.molcel.2019.08.014
Source DB: PubMed Journal: Mol Cell ISSN: 1097-2765 Impact factor: 17.970