Role of Calcium in Serine Transport into Tobacco Cells

The transport of serine into tobacco (Nicotiana tabacum L. var. Xanthi) cells grown in liquid medium was studied. Serine transport was maximal below pH 4.0. A time-dependent stimulation of transport was observed when cells were incubated in medium containing 0.5 mm Ca(2+). Maximum transport rates were achieved after 6 hours preincubation in Ca(2+). The following three distinct roles of Ca(2+) in serine transport were demonstrated: time-dependent stimulation of transport rate, maintenance of high transport rates, and retention of transported material. Stimulation occurred in the presence of either Ca(2+) or Mg(2+) and was inhibited by either La(3+) or K(+). Removal of Ca(2+) from the transport medium caused a rapid decline in the rate of serine uptake. This decline was prevented by addition of La(3+) after Ca(2+) removal. Cells transferred to medium lacking Ca(2+) lost substantial amounts of transported serine, this loss was significantly reduced by either La(3+) or K(+).Cells placed in (45)Ca(2+) rapidly bound more than 3 micromoles of Ca(2+)/gram fresh weight, which was exchangeable within 10 minutes with medium Ca(2+). Seventy-five per cent of the (45)Ca(2+) transported into the cells in 4 hours could be exchanged with medium Ca(2+) in the same period. The amount of net Ca(2+) transport into tobacco cells is insignificant relative to the total exchangeable Ca(2+).It is proposed that serine transport into tobacco cells involves H(+) cotransport and that the stimulation by Ca(2+) is due to an increase in the proton-motive force.