Measuring dissociation constants of RNA and aminoglycoside antibiotics by electrospray ionization mass spectrometry.

Electrospray ionization mass spectrometry (ESI-MS) has been used to determine the dissociation constants (K(D)s) and binding stoichiometry for tobramycin and paromomycin with a 27-nucleotide RNA construct representing the A-site of the 16S ribosomal RNA. K(D) values determined by holding the ligand concentration fixed are compared with K(D) values derived by holding the RNA target concentration fixed. Additionally, the effect of solution conditions such as the amount of organic solvent present and the amount of salt present in the solution on the K(D) measurement is investigated. It is shown that the preferred method for determining dissociation constants using ESI-MS is holding the RNA target concentration fixed below the expected K(D) and titrating the ligand. K(D) measurements should also be carried out at as high as possible salt concentration to minimize nonspecific binding due primarily to electrostatic interactions. For tobramycin, two nonequivalent binding sites were found with K(D1) = 352 nM and K(D2) = 9 microM. For paromomycin, there is only one binding site with K(D) = 52 nM. Copyright 2000 Academic Press.