Molecular Determinants for 23S rRNA Recognition and Modification by the E. coli Pseudouridine Synthase RluE |
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| Authors: | Anne-Sophie Tillault Sarah K Schultz Hans-Joachim Wieden Ute Kothe |
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| Institution: | Alberta RNA Research and Training Institute, Department of Chemistry and Biochemistry, University of Lethbridge, Lethbridge, AB, T1K 3M4, Canada |
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| Abstract: | The isomerization of uridine to pseudouridine is the most common type of RNA modification found in RNAs across all domains of life and is performed by RNA-dependent and RNA-independent enzymes. The Escherichia coli pseudouridine synthase RluE acts as a stand-alone, highly specific enzyme forming the universally conserved pseudouridine at position 2457, located in helix 89 (H89) of the 23S rRNA in the peptidyltransferase center. Here, we conduct a detailed structure–function analysis to determine the structural elements both in RluE and in 23S rRNA required for RNA–protein interaction and pseudouridine formation. We determined that RluE recognizes a large part of 23S rRNA comprising both H89 and the single-stranded flanking regions which explains the high substrate specificity of RluE. Within RluE, the target RNA is recognized through sequence-specific contacts with loop L7–8 as well as interactions with loop L1–2 and the flexible N-terminal region. We demonstrate that RluE is a faster pseudouridine synthase than other enzymes which likely enables it to act in the early stages of ribosome formation. In summary, our biochemical characterization of RluE provides detailed insight into the molecular mechanism of RluE forming a highly conserved pseudouridine during ribosome biogenesis. |
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| Keywords: | nt nucleotide PTC peptidyltransferase center H89 helix 89 RNP ribonucleoprotein rRNA ribosomal RNA wt wild-type ribosomal RNA peptidyltransferase center RNA modification pseudouridine RNA–protein interaction |
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