| Literature DB >> 21326952 |
Eleonora Muro1, Jeannine Gébrane-Younís, Aude Jobart-Malfait, Emilie Louvet, Pascal Roussel, Danièle Hernandez-Verdun.
Abstract
The building of nuclear bodies after mitosis is a coordinated event crucial for nuclear organization and function. The nucleolus is assembled during early G(1) phase. Here, two periods (early G1a and early G1b) have been defined. During these periods, the nucleolar compartments (DFC, GC) corresponding to different steps of ribosome biogenesis are progressively assembled. In telophase, rDNA transcription is first activated and PNBs (reservoirs of nucleolar processing proteins) are formed. The traffic of the processing proteins between incipient nucleoli and PNBs was analyzed using photoactivation. We demonstrate that the DFC protein fibrillarin passes from one incipient nucleolus to other nucleoli but not to PNBs, and that the GC proteins, B23/NPM and Nop52, shuttle between PNBs and incipient nucleoli. This difference in traffic suggests a way of regulating assembly first of DFC and then of GC. The time of residency of GC proteins is high in incipient nucleoli compared to interphase nuclei, it decreases in LMB-treated early G1a cells impairing the assembly of GC. Because the assembly of the nucleolus and that of the Cajal body at the exit from mitosis are both sensitive to CRM1 activity, we discuss the fact that assembly of GC and/or its interaction with DFC in early G1a depends on shuttling between PNBs and NORs in a manner dependent on Cajal body assembly.Entities:
Keywords: CRM1; Cajal body; EM structure; PNBs; cell cycle; living cell; nucleolus; photoactivation; traffic
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Year: 2010 PMID: 21326952 PMCID: PMC3030696 DOI: 10.4161/nucl.1.2.11334
Source DB: PubMed Journal: Nucleus ISSN: 1949-1034 Impact factor: 4.197