Changes in protein profile and amino acids in Cladophora vagabunda (Chlorophyceae) in response to salinity stress

The aim of the present study was to detect organic substances functioning as osmoticants that are used by the intertidal alga, Cladophora vagabunda (L.) Hoek (Chlorophyceae), to adapt to a wide range of salinity. The major constituents of the amino acid pool were aspartate, glutamate, glycine, valine, lysine, histidine, arginine, and proline. There were concomitant increases in the acidic amino acids: aspartate and the glutamate and the basic amino acids: lysine, histidine and arginine in response to salinity stress. The appearance of proline at hypersalinity alone showed that it acts as an osmoticant. As salinity increased, there was a progressive shift in the electrophoretic pattern of protein bands. New peptide bands appeared under hyposalinity (10 parts per thousand) and hypersalinity (65 parts per thousand) stress conditions in addition to the usual bands which appeared in the control (35 parts per thousand). Glycine betaine, which has been considered a novel organic osmolyte in a number of organisms, has also been observed in C vagabunda in response to salinity stress. The synthesis of the compatible solute glycine betaine and the amino acid proline with increasing salinity illustrates the contention that marine algae establish an osmotic equilibrium primarily by the synthesis of organic compounds.