N. Aoki et R. Kanai, REAPPRAISAL OF THE ROLE OF SODIUM IN THE LIGHT-DEPENDENT ACTIVE-TRANSPORT OF PYRUVATE INTO MESOPHYLL CHLOROPLASTS OF C-4 PLANTS, Plant and Cell Physiology, 38(11), 1997, pp. 1217-1225
The mechanism of light-dependent active transport of pyruvate in C-4 m
esophyll chloroplasts has not been clarified, particularly in Na+-type
C-4 species, in which the pyruvate uptake into mesophyll chloroplasts
is enhanced by illumination or by making a Na+ gradient (Na+-jump) ac
ross the envelope in the dark. We re-investigated here the effect of N
a+ on the active transport of pyruvate in mesophyll chloroplasts of Pa
nicum miliaceum, a Na+-type C-4 species, by comparing the rate of pyru
vate uptake at various external pHs under four conditions; in the ligh
t and dark together with/without Na+-jump: (1) At neutral pH, the rate
of pyruvate uptake in the dark was enhanced by Na+-jump but scarcely
by illumination. (2) While the enhancement effect by Na+-jump was inde
pendent of external pH, that by illumination increased greatly at pH o
ver 7.4, and the effects of light and Na+ at the alkaline pH were syne
rgistic. (3) The light-enhanced pyruvate uptake was related to stromal
alkalization induced by illumination. In fact, pyruvate uptake was in
duced by H+-jump in the medium from pH 8.0 to 6.7. (4) Stromal pH was
lowered by the addition of K+-pyruvate and more by Na+-pyruvate into t
he medium at pH 7.8 in the light. (5) However, the pH and ATP levels i
n the stroma were not affected by Na+-jump. Thus, we discussed possibi
lity that besides pyruvate/Na+ cotransport at neutral pH in the medium
, pyruvate/H+ cotransport enhanced by the presence of Na+ operates in
mesophyll chloroplasts of Na+-type C-4 species at alkaline medium.