The Efg1–Bud22 dimer associates with the U14 snoRNP contacting the 5′ rRNA domain of an early 90S pre-ribosomal particle

Author:

Beine-Golovchuk Olga1ORCID,Kallas Martina1,Kunze Ruth1,Griesel Sabine1,Baßler Jochen1ORCID

Affiliation:

1. Biochemie-Zentrum der Universität Heidelberg (BZH) , Im Neuenheimer Feld 328 , 69120  Heidelberg , Germany

Abstract

Abstract The DEAD-box helicase Dbp4 plays an essential role during the early assembly of the 40S ribosome, which is only poorly understood to date. By applying the yeast two-hybrid method and biochemical approaches, we discovered that Dbp4 interacts with the Efg1–Bud22 dimer. Both factors associate with early pre-90S particles and smaller complexes, each characterized by a high presence of the U14 snoRNA. A crosslink analysis of Bud22 revealed its contact to the U14 snoRNA and the 5′ domain of the nascent 18S rRNA, close to its U14 snoRNA hybridization site. Moreover, depletion of Bud22 or Efg1 specifically affects U14 snoRNA association with pre-ribosomal complexes. Accordingly, we concluded that the role of the Efg1–Bud22 dimer is linked to the U14 snoRNA function on early 90S ribosome intermediates chaperoning the 5′ domain of the nascent 18S rRNA. The successful rRNA folding of the 5′ domain and the release of Efg1, Bud22, Dpb4, U14 snoRNA and associated snoRNP factors allows the subsequent recruitment of the Kre33-Bfr2-Enp2-Lcp5 module towards the 90S pre-ribosome.

Funder

Deutsche Forschungsgemeinschaft

European Research Council

University of Heidelberg

Publisher

Oxford University Press (OUP)

Subject

Genetics

Reference60 articles.

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