Abstract

More than 200 assembly factors (AFs) are required for the production of ribosomes in yeast. The stepwise association and dissociation of these AFs with the pre-ribosomal subunits occurs in a hierarchical manner to ensure correct maturation of the pre-rRNAs and assembly of the ribosomal proteins. Although decades of research have provided a wealth of insights into the functions of many AFs, others remain poorly characterized. Pol5 was initially classified with B-type DNA polymerases, however, several lines of evidence indicate the involvement of this protein in ribosome assembly. Here, we show that depletion of Pol5 affects the processing of pre-rRNAs destined for the both the large and small subunits. Furthermore, we identify binding sites for Pol5 in the 5′ external transcribed spacer and within domain III of the 25S rRNA sequence. Consistent with this, we reveal that Pol5 is required for recruitment of ribosomal proteins that form the polypeptide exit tunnel in the LSU and that depletion of Pol5 impairs the release of 5′ ETS fragments from early pre-40S particles. The dual functions of Pol5 in 60S assembly and recycling of pre-40S AFs suggest that this factor could contribute to ensuring the stoichiometric production of ribosomal subunits.

Highlights

  • The synthesis of ribosomes is an essential cellular process that enables the production of all proteins

  • Our affinity purifications suggested the association of Pol5 with the 35S and 27SB pre-ribosomal RNA (rRNA), and using Crosslinking and analysis of cDNA (CRAC), we have uncovered contact sites between Pol5 and these prerRNAs

  • Our data indicated that Pol5 contacts the ITS2 region and helix h58 within the domain III of the 25S sequence, which is in line with the requirement for Pol5 for LSU biogenesis

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Summary

Introduction

The synthesis of ribosomes is an essential cellular process that enables the production of all proteins. Pre-ribosome assembly events, which include assembly of some ribosomal proteins, the initial pre-rRNA cleavages that separate the biogenesis pathways of the small and large ribosomal subunits (SSU and LSU respectively), and many rRNA modifications, can occur co-transcriptionally [2,3]. During the early steps of ribosome assembly, a large number of AFs associate with the nascent transcript to form the SSU processome [3,4]. These early assembly factors were named as U three proteins (Utp) because of their association with the U3 small nucleolar (sno)RNA. The final maturation steps of the SSU include a translation-like

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