Binding affinity and inhibitory potency of neomycin and streptomycin on the Tat peptide interaction with HIV-1 TAR RNA detected by on-line acoustic wave sensor.

Abstract

The binding of two aminoglycoside antibiotics, neomycin and streptomycin, to a segment of the transactivation responsive region (TAR) RNA of the human immunodeficiency virus, and their inhibitory potency to disrupt the interaction of the RNA with a regulatory Tat protein-derived peptide, have been studied using a flow-through acoustic wave detector system. Binding affinity is directly correlated with the inhibitory potency of these molecules and the acoustic wave detection system shows that neomycin exhibits at least a ten-fold greater affinity for TAR RNA and that it is also a more potent inhibitor than streptomycin. These results are in agreement with previous studies. However, unlike the time-consuming batch-based assays, use of the flow-through format offers considerable potential for the rapid screening of the chemistry of relatively small-molecule-nucleic acid binding events.