Growth, Water Content, and Solute Accumulation of Two Tobacco Cell Lines Cultured on Sodium Chloride, Dextran, and Polyethylene Glycol

Simulated drought tolerance was compared for an NaCl-adapted and a nonadapted cell line of tobacco (Nicotiana tabacum var. Samsum) to determine the relationship of salt and drought tolerances. The osmotic adjustment and growth of these two lines was followed when cultured on solid media which contained isosmotic concentrations of NaCl, KCl, polyethylene glycol (PEG) or dextran. One line was adapted to growth on 130 millimolar NaCl, but the other was not. The growth of NaCl-adapted and nonadapted cell lines was equally inhibited (61 per cent of control) by 130 millimolar NaCl. Growth inhibition was greater on PEG or dextran than on NaCl. Growth ceased on the second passage of dextran for the nonadapted cells, while the NaCl-adapted cells grew slowly for four passages on dextran. Water contents for both cell lines were 95 per cent on NaCl or KCl and 70 to 88 per cent on PEG 1540 or 4000 or dextran after the second passage on these media. On dextran or PEG 4000, 46 to 89 per cent of the cellular osmotic potential was produced by the solutes initially present in the medium. Similarly, on NaCl, almost 100 per cent was attributable to solutes in the medium. It was concluded that cells grown on the nonpenetrating solutes had a more negative osmotic potential than those grown in the absence of added solute due to partial dehydration, greater uptake of external ions, and possibly the production of unidentified osmotica. Adjustment to growth on penetrating solutes may have enabled the adapted line to overcome the osmotic stress produced by nonpenetrating dextran.