Nucleolar proteins Bfr2 and Enp2 interact with DEAD-box RNA helicase Dbp4 in two different complexes

Sahar Soltanieh,Martin Lapensée,François Dragon

doi:10.1093/nar/gkt1293

Sahar Soltanieh, Martin Lapensée + Show 1 more

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https://doi.org/10.1093/nar/gkt1293

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Journal: Nucleic acids research	Publication Date: Dec 18, 2013
Citations: 27	License type: CC BY 3.0

Affiliation: Université du Québec à Montréal

Abstract

Different pre-ribosomal complexes are formed during ribosome biogenesis, and the composition of these complexes is highly dynamic. Dbp4, a conserved DEAD-box RNA helicase implicated in ribosome biogenesis, interacts with nucleolar proteins Bfr2 and Enp2. We show that, like Dbp4, Bfr2 and Enp2 are required for the early processing steps leading to the production of 18S ribosomal RNA. We also found that Bfr2 and Enp2 associate with the U3 small nucleolar RNA (snoRNA), the U3-specific protein Mpp10 and various pre-18S ribosomal RNA species. Thus, we propose that Bfr2, Dbp4 and Enp2 are components of the small subunit (SSU) processome, a large complex of ∼80S. Sucrose gradient sedimentation analyses indicated that Dbp4, Bfr2 and Enp2 sediment in a peak of ∼50S and in a peak of ∼80S. Bfr2, Dbp4 and Enp2 associate together in the 50S complex, which does not include the U3 snoRNA; however, they associate with U3 snoRNA in the 80S complex (SSU processome). Immunoprecipitation experiments revealed that U14 snoRNA associates with Dbp4 in the 50S complex, but not with Bfr2 or Enp2. The assembly factor Tsr1 is not part of the ‘50S’ complex, indicating this complex is not a pre-40S ribosome. A combination of experiments leads us to propose that Bfr2, Enp2 and Dbp4 are recruited at late steps during assembly of the SSU processome.

Highlights

The making of eukaryotic ribosomes is an intricate process that is highly conserved
Only U3, U14 and snR30 small nucleolar RNA (snoRNA) are essential for the cleavage reactions that lead to the production of 18S ribosomal RNA (rRNA) [2,10,11]
A large number of these proteins are part of the small subunit (SSU) processome complex [14], which is necessary for the maturation of 18S rRNA [12,13]

Summary

Introduction

The making of eukaryotic ribosomes is an intricate process that is highly conserved. Our knowledge of ribosome biogenesis comes mainly from studies in the budding yeast Saccharomyces cerevisiae [1,2,3,4]. Ribosome biogenesis initiates within the nucleolus, continues in the nucleoplasm and terminates in the cytoplasm This process involves ribosomal RNA (rRNA) transcription, processing, modification and assembly of rRNAs with ribosomal proteins, which leads to the synthesis of the small and large ribosomal subunits (40S and 60S) [1,2,5,6]. The SSU processome is an early pre-ribosomal particle that is necessary for maturation of the 18S rRNA: it contains the U3 snoRNA and about 72 proteins including ribosome biogenesis factors and ribosomal proteins [14]. These proteins assemble and interact together to form the SSU processome. Proteins identified from these sub-complexes account for Nucleic Acids Research, 2014, Vol 42, No 5 3195

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