Calcium Transport by Frankia sp. Strain EAN1pec

Abstract.

When incubated at 25°C, N₂-grown cells of Frankia strain EAN1pec actively accumulated calcium, while NH₄Cl-grown cells did not accumulate calcium. When incubated at 0°C, both N₂-grown and NH₄Cl-grown cells did not actively accumulate calcium. Inhibitors of respiration inhibited calcium accumulation by N₂-grown cells at 25°C. Isolated vesicles also accumulated calcium in an energy- and temperature-dependent manner. Two lines of evidence show that Frankia strain EAN1pec has an active calcium extrusion mechanism. First, NH₄Cl-grown cells incubated under deenergizing conditions accumulated calcium. Second, calcium efflux from calcium-loaded cells required an energy source and was blocked by inhibitors. The results of this study indicate that Frankia strain EAN1pec has two systems for calcium transport: a calcium extrusion system and a developmentally regulated calcium uptake system.