An active proton pump of intact vacuoles isolated from Tulipa petals

Abstract

Anthocyanin pigments within Tulipa petal vacuoles provide the means for real-time spectrophotometric monitoring of vacuolar sap pH and for studying ATP-dependent proton transport in isolated, intact vacuoles. Spectra of petal extracts were used to select empirically those wavelengths giving an approximately linear variation in anthocyanin absorbance with pH over a pH range of interest. A sensitive single-beam spectrophotometer with vertical optics was used to minitor absorbance changes of intact, settled vacuoles. Substrates and inhibitors of vacuolar ATPase (Lin, W., Wagner, G.J., Siegelman, H.W. and Hind, Q. (1977) Biochim. Biophys. Acta 465, 110–117) were added to probe proton transport. Acidification of the vacuole sap occurred following addition of MgATP, but not CaATP. Proton accumulation was inhibited by 10 μM Dio 9, an inhibitor of tonoplast ATPase in vitro, and the proton gradient established by addition of MgATP was dissipated after addition of 10 μM CCCP. No pumping response was observed with intact protoplasts. Potential differences across the tonoplast were directly measured by impaling vacuoles with glass microelectrodes. Potential differences of 10–20 mV (inside positive) were recorded when vacuoles were suspended in 0.7 M mannitol/10 mM Hepes buffer (adjusted to pH 8.0 with KOH), and 0.5 mM dithiothreitol. Addition of MgATP increased the potential difference by 2–5 mV.