Oscillations in proton transport revealed from simultaneous measurements of net current and net proton fluxes from isolated root protoplasts: MIFE meets patch-clamp
Date
2001
Authors
Tyerman, S.
Beilby, M.
Whittington, J.
Juswono, U.
Newman, I.
Shabala, S.
Editors
Advisors
Journal Title
Journal ISSN
Volume Title
Type:
Journal article
Citation
Functional Plant Biology, 2001; 28(7):591-604
Statement of Responsibility
Stephen D. Tyerman, Mary Beilby, John Whittington, Unggul Juswono, Ian Newman and Sergey Shabala
Conference Name
DOI
Abstract
<jats:p>Proton fluxes were measured non-invasively on patch-clamped protoplasts isolated from wheat roots using an external H + electrode to measure the electrochemical gradient in the external solution. Under voltage clamp in the whole-cell configuration, the H + fluxes across the plasma membrane could be measured as a function of voltage and time and correlated with the simultaneous measurements of membrane current. Protoplasts could exist in three states based on the current–voltage ( I – V ) curves and the flux– V curves. In the pump-state where the membrane voltage ( Vm ) was more negative than the electrochemical equilibrium potential for potassium ( E K ), a net efflux of H + occurred that was voltage-dependent such that the efflux increased as Vm was clamped more positive. In the K-state, where Vm was close to E K , similar flux– V curves were observed. In the depolarised state where Vm was greater than E K the proton flux was characterised by a net influx of H + ( H + - influx state ) that reversed direction at more positive values of Vm . The inhibitory effect of DCCD and stimulatory effect of fusicoccin were used to correlate current and H + flux through the H + -ATPase for which there was reasonably good agreement within the limits of the flux measurements. Some protoplasts were kept in the whole-cell configuration for up to 3 h revealing slow sustained oscillations (period about 40 min) in H + flux that were in phase with oscillations in free-running Vm . These oscillations were also observed under voltage clamp, with membrane current in phase with H + flux, but which became damped out after a few cycles. The oscillations encompassed the pump-state, K + -state and H + -influx-state. The H +- flux– V curves and I – V curves were used to model the electrical characteristics of the plasma membrane with H + -ATPase, inward and outward K + rectifiers, a linear conductance, and a passive H + influx possibly through gated proton channels.</jats:p>