tRNA(Phe) binds aminoglycoside antibiotics.

Aminoglycoside antibiotics have recently been found to bind to a variety of unrelated RNA molecules, including sequences that are important for retroviral replication. We report the binding of neomycin B, kanamycin A, and Neo-Neo (a synthetic neomycin-neomycin dimer) to tRNA(Phe). Using thermal denaturation studies, fluorescence spectroscopy, Pb2+-mediated tRNA(Phe) cleavage, and gel mobility shift assays, we have established that aminoglycosides interact with yeast tRNA(Phe) and are likely to induce a conformational change. Thermal denaturation studies revealed that aminoglycosides have a substantial stabilizing effect on tRNA(Phe) secondary and tertiary structures, much greater than the stabilization effect of spermine, an unstructured polyamine. Aminoglycoside-induced inhibition of Pb2+-mediated tRNA(Phe) cleavage yielded IC50 values of: 5 microM for Neo-Neo, 100 microM for neomycin B, > 1 mM for kanamycin A, and > 10 mM for spermine. Enzymatic and chemical footprinting indicate that the anticodon stem as well as the junction of the TpsiC and D loops are preferred aminoglycoside binding sites.