1mt4

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Revision as of 19:51, 24 November 2007

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Structure of 23S ribosomal RNA hairpin 35

Overview

The bacterial rRNA methyltransferase RlmAII (formerly TlrB) contributes to, resistance against tylosin-like 16-membered ring macrolide antibiotics., RlmAII was originally discovered in the tylosin-producer Streptomyces, fradiae, and members of this subclass of methyltransferases have, subsequently been found in other Gram-positive bacteria, including, Streptococcus pneumoniae. In all cases, RlmAII methylates 23S rRNA at, nucleotide G748, which is situated in a stem-loop (hairpin 35) at the, macrolide binding site of the ribosome. The conformation of hairpin 35, recognized by RlmAII is shown here by NMR spectroscopy to resemble the, anticodon loop of tRNA. The loop folds independently of the rest of the, 23S rRNA, and is stabilized by a non-canonical G-A pair and a U-turn, motif, rendering G748 accessible. Binding of S.pneumoniae RlmAII induces, changes in NMR signals at specific nucleotides that are involved in the, methyltransferase-RNA interaction. The conformation of hairpin 35 that, interacts with RlmAII is radically different from the structure this, hairpin adopts within the 50S subunit. This indicates that the hairpin, undergoes major structural rearrangement upon interaction with ribosomal, proteins during 50S assembly.

About this Structure

1MT4 is a Protein complex structure of sequences from [1]. Full crystallographic information is available from OCA.

Reference

Structure of 23S rRNA hairpin 35 and its interaction with the tylosin-resistance methyltransferase RlmAII., Lebars I, Yoshizawa S, Stenholm AR, Guittet E, Douthwaite S, Fourmy D, EMBO J. 2003 Jan 15;22(2):183-92. PMID:12514124

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