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Structural basis of RNA polymerase I pre-initiation complex formation and promoter melting

Michael Pilsl, Christoph Engel

2020Nature Communications39 citationsDOIOpen Access PDF

Abstract

Transcription of the ribosomal RNA precursor by RNA polymerase (Pol) I is a prerequisite for the biosynthesis of ribosomes in eukaryotes. Compared to Pols II and III, the mechanisms underlying promoter recognition, initiation complex formation and DNA melting by Pol I substantially diverge. Here, we report the high-resolution cryo-EM reconstruction of a Pol I early initiation intermediate assembled on a double-stranded promoter scaffold that prevents the establishment of downstream DNA contacts. Our analyses demonstrate how efficient promoter-backbone interaction is achieved by combined re-arrangements of flexible regions in the 'core factor' subunits Rrn7 and Rrn11. Furthermore, structure-function analysis illustrates how destabilization of the melted DNA region correlates with contraction of the polymerase cleft upon transcription activation, thereby combining promoter recruitment with DNA-melting. This suggests that molecular mechanisms and structural features of Pol I initiation have co-evolved to support the efficient melting, initial transcription and promoter clearance required for high-level rRNA synthesis.

Topics & Concepts

RNA polymerase IITranscription (linguistics)RNA polymerase IRNA polymerasePromoterPolymeraseRNA polymerase IIIBiologyCell biologyDNATranscription factor II DInitiation factorMolecular biologyRNAChemistryRibosomeGeneticsRNA-dependent RNA polymeraseGeneGene expressionLinguisticsPhilosophyRNA and protein synthesis mechanismsRNA modifications and cancerRNA Research and Splicing