Active transport of basic amino acids driven by a proton motive force in vacuolar membrane vesicles of Saccharomyces cerevisiae.
- Y Ohsumi and
- Y Anraku
Abstract
The mechanism of transport of basic amino
acids into vacuoles of cells of the yeast Saccharomyces cerevisiae was
investigated
in vitro. Right-side-out vacuolar membrane vesicles
were prepared from purified vacuoles. Arginine was taken up effectively
by the vesicles only in the presence of ATP, not in
the presence of ADP or AMP-adenosyl-5'-yl imidodiphosphate. It was
exchangeable
and was released completely by a protonophore,
3,5-di-tert-butyl-4-hydroxybenzilidenemalononitrile (SF6847). The
transport
required Mg2+ ion but was inhibited by Cu2+, Ca2+,
or Zn2+ ions. The transport activity was sensitive to the ATPase
inhibitor
N,N'-dicyclohexylcarbodiimide (DCCD), but not to
oligomycin or sodium vanadate. SF6847 or nigericin blocked arginine
uptake
completely, but valinomycin had no effect.
ATP-dependent formation of a delta pH across the membrane vesicles was
shown by
quenching of 9-aminoacridine fluorescence. These
results indicate that DCCD-sensitive, Mg2+-ATPase of vacuolar membranes
is
essential as an energy-donating system for the
active transport, and that an electrochemical potential difference of
protons
is a driving force of this basic amino acid
transport. Arginine transport showed saturation kinetics with a Km value
of 0.6
mM and the mechanism was well explained by an
H+/arginine antiport.
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