Abstract
Aminoglycoside antibiotics that bind to ribosomal RNA in the aminoacyl-tRNA site (A-site) cause misreading of the genetic code and inhibit translocation. We have recently solved the structure of an A-site RNA-paromomycin complex. The structure suggested that rings I and II, common to all aminoglycosides that bind to the A-site, are the minimum motif for specific ribosome binding to affect translation. This hypothesis was tested biochemically and with a detailed comparative NMR study of interaction of the aminoglycosides paromomycin, neomycin, ribostamycin, and neamine with the A-site RNA. Our NMR data show that rings I and II of neomycin-class aminoglycosides are sufficient to confer specificity to the binding of the antibiotics to the model A-site RNA. Neomycin, paromomycin, ribostamycin and neamine bind in the major groove of the A-site RNA in a unique binding pocket formed by non-canonical base pairs and a bulged nucleotide. Similar NMR properties of the RNA and the diverse antibiotics within the different complexes formed with neomycin, paromomycin, ribostamycin and neamine suggest similar structures for these complexes.
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