Methods and compositions are provided for determining the potential of a
membrane. In one aspect, the method comprises: (a) introducing a first
reagent comprising a hydrophobic fluorescent ion capable of
redistributing from a first face of the membrane to a second face of the
membrane in response to changes in the potential of the membrane, as
described by the Nernst equation, (b) introducing a second reagent which
labels the first face or the second face of the membrane, which second
reagent comprises a chromophore capable of undergoing energy transfer by
either (i) donating excited state energy to the fluorescent ion, or (ii)
accepting excited state energy from the fluorescent ion, (c) exposing the
membrane to radiation; (d) measuring energy transfer between the
fluorescent ion and the second reagent, and (e) relating the energy
transfer to the membrane potential. Energy transfer is typically
measured by fluorescence resonance energy transfer. In some embodiments
the first and second reagents are bound together by a suitable linker.In
one aspect the method is used to identify compounds which modulate
membrane potentials in biological membranes.