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Core sequence in the RNA motif recognized by the ErmE methyltransferase revealed by relaxing the fidelity of the enzyme for its target

Published online by Cambridge University Press:  01 January 1999

LYKKE HAASTRUP HANSEN
Affiliation:
Department of Molecular Biology, Odense University, DK-5230 Odense M, Denmark
BIRTE VESTER
Affiliation:
Institute of Molecular Biology, University of Copenhagen, DK-1307 Copenhagen K, Denmark
STEPHEN DOUTHWAITE
Affiliation:
Department of Molecular Biology, Odense University, DK-5230 Odense M, Denmark
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Abstract

Under physiological conditions, the ErmE methyltransferase specifically modifies a single adenosine within ribosomal RNA (rRNA), and thereby confers resistance to multiple antibiotics. The adenosine (A2058 in Escherichia coli 23S rRNA) lies within a highly conserved structure, and is methylated efficiently, and with equally high fidelity, in rRNAs from phylogenetically diverse bacteria. However, the fidelity of ErmE is reduced when magnesium is removed, and over twenty new sites of ErmE methylation appear in E. coli 16S and 23S rRNAs. These sites show widely different degrees of reactivity to ErmE. The canonical A2058 site is largely unaffected by magnesium depletion and remains the most reactive site in the rRNA. This suggests that methylation at the new sites results from changes in the RNA substrate rather than the methyltransferase. Chemical probing confirms that the rRNA structure opens upon magnesium depletion, exposing potential new interaction sites to the enzyme. The new ErmE sites show homology with the canonical A2058 site, and have the consensus sequence aNNNcgGAHAg (ErmE methylation occurs exclusively at adenosines (underlined); these are preceded by a guanosine, equivalent to G2057; there is a high preference for the adenosine equivalent to A2060; H is any nucleotide except G; N is any nucleotide; and there are slight preferences for the nucleotides shown in lower case). This consensus is believed to represent the core of the motif that Erm methyltransferases recognize at their canonical A2058 site. The data also reveal constraints on the higher order structure of the motif that affect methyltransferase recognition.

Type
Research Article
Copyright
© 1999 RNA Society

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