Determination of intracellular osmotic volume and sodium concentration in dunaliella

Abstract

A new method to measure intracellular volume in Dunaliella was developed, where lithium ions are used as monitors of the extracellular volume. Li(+) is shown to be impenetrable to the intracellular volume, insignificantly absorbed to the algae, and is rapidly and evenly distributed within the extracellular volume. The method is suggested to be free of several limitations and consistent errors present in several previously employed techniques.Using the new technique it is shown that both Dunaliella salina and Dunaliella bardawil adjust to a constant cellular volume when grown in a medium containing salt concentrations ranging from 0.5 molar to 4 molar NaCl. That volume is 90 femtoliter per cell for D. salina and 600 femtoliter per cell for D. bardawil. Nonosmotic volume accounts for about 10% of the total cell volume.The intracellular sodium concentration, as determined with the new technique, was under all experimental conditions tested below 100 millimolar. This was true both for cells grown on 0.5 to 4 molar NaCl, and during the osmoregulatory process. It is thus concluded that intracellular NaCl is a minor contributor to the overall intracellular osmotic pressure in Dunaliella.