ATP,pH and Mg2+ modulate a cation current in Beta vulgaris vacuoles: A possible shunt conductance for the vacuolar H+-ATPase |
| |
Authors: | J. M. Davies D. Sanders |
| |
Affiliation: | (1) Plant Laboratory, Department of Biology, University of York, P.O. Box 373, Y01 5YW York, UK |
| |
Abstract: | Macroscopic instantaneous and time-dependent currents have been measured in the vacuolar membrane of Beta vulgaris using a patch clamp configuration analogous to whole cell mode. At low cytosolic Ca2+ and in the absence of Mg2+, only an instantaneous current was observed. This current is carried predominantly by cations (PKPCl 71, pnapcl 41 and arginine is also conducted). The instantaneous current can be activated by ATP4– (e.g., ATP-activated mean K+ current density was –20 mA.m–2 at a membrane voltage of –20 mV) and by increasing cytosolic pH and Mg2+ (raising Mg2+ from 0 to 0.4 mm induced a mean current density increase of –7 mA.m–2 at –20 mV). Such current can be activated by simultaneous addition of putative in vivo concentrations of ATP4–/MgATP/Mgfree2+(in the presence of bafilomycin to inhibit the vacuolar ATPase) and further modulated by cytosolic pH. With vacuolar K+ concentration greater than that of the cytosol, activation of the instantaneous current would mediate vacuolar K+ release over the range of physiological membrane voltage. It is argued that the ATP4–-activated current, in addition to acting as a K+ mobilization pathway, could provide a counter-ion (shunt) conductance, allowing the two electrogenic H+ pumps which reside in the vacuolar membrane to acidify the vacuolar lumen.A separate time-dependent current, which was not observed at low Ca2+ concentrations (less than 500 nm) could also be elicited by addition of Mg2+ at the cytoplasmic membrane face. This current was stimulated by increasing cytoplasmic pH.The authors are grateful to the BBSRC for financial support (Grant PG87/529) and to the Royal Society (University Research Fellowship to J.M.D.). We thank C. Abbott, K. Partridge and J. Robinson for plant cultivation; A. Amtmann, A. Bertl, D. Gradmann and G. Thiel for helpful discussion. |
| |
Keywords: | Amino acid transport ATP regulation Beta Mg2+ pH |
本文献已被 SpringerLink 等数据库收录! |
|