Quantitative and Rapid Estimation of H+ Fluxes in Membrane Vesicles 1: Software for Analysis of Fluorescence Quenching and Relaxation

AUTOR(ES)

Jennings, Ian R.

RESUMO

Proton transport is often visualized in membrane vesicles by use of fluorescent monoamines which accumulate in acidic intravesicular compartments and undergo concentration-dependent fluorescence quenching. Software for an IBM microcomputer is described which permits logging and editing of changes in fluorescence monitored by a Perkin-Elmer LS-5 luminescence spectrometer. An accurate estimate of the instantaneous rate of fluorescence quenching or recovery is then facilitated by least squares fitting of fluorescence data to a nonlinear function. The software is tested with tonoplast vesicles from Beta vulgaris. Quenching of acridine orange fluorescence by ATP-driven (primary) transport and relaxation of quenching by Na+/H+ antiport can both be fitted with single exponential functions. Initial rates of ATP- and Na+ -dependent fluorescence changes are derived and can be used for Km determinations. The method constitutes a simple and efficient alternative to manual analysis of analog fluorescence traces and results in a reliable quantitative measurement of the relative rate of proton transport in membrane vesicle preparations.

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