K. Shimogawara et H. Usuda, UPTAKE OF INORGANIC-PHOSPHATE BY SUSPENSION-CULTURED TOBACCO CELLS - KINETICS AND REGULATION BY P-I STARVATION, Plant and Cell Physiology, 36(2), 1995, pp. 341-351
The kinetics of P-i uptake by phosphate-starved and non-starved tobacc
o cells (Nicotiana tabacum BY-2)suspension culture was investigated. T
he kinetic parameters of P-i uptake were determined by computer simula
tion of the curve that represented the time-dependent loss of P-i from
the culture medium. The uptake profile could be completely explained
by assuming the existence of only one kind of Michaelis-Menten-type P-
i-transport system with an affinity for P-i (K-m) of about 2.5 mu M (t
he lowest value reported to date) in both P-i-starved and non-starved
cells. No evidence was obtained suggesting the existence of a ''low-af
finity'' P-i-uptake system that has been postulated to exist in severa
l other plant materials. The V-max for uptake of P-i by non-starved ce
lls was 12 nmol per minute per milliliter of packed cell. Phosphate st
arvation increased the V-max more than 5-fold, while it had no effect
on the affinity for P-i. V-max began to increase (at an almost constan
t rate) just after loss of all P-i from the culture medium and it reac
hed a maximum about 16 hours later. This induction process was complet
ely prevented by the addition of cycloheximide to the culture medium.
All these results suggest that P-i starvation increases the synthesis
of a phosphate-carrier complex that is postulated to be involved in th
e P-i-uptake process.