Plant growth, metabolism and adaptation in relation to stress conditions. XXVII. Can ascorbic acid modify the adverse effects of NaCl and mannitol on amino acids, nucleic acids and protein patterns in Vicia faba seedlings?

The adverse effects of either NaCl or mannitol on amino acids, protein patterns and nucleic acids in Vicia faba seeds were investigated. The exogenous addition of 4 mM ascorbic acid to the stressing media in which the broad bean seeds were germinated in combination with either the ionic (NaCl) or osmotic (mannitol) stressor induced significant protective changes in the total amount and in the relative composition of amino acids in general and in proline, glycine, glutamic, aspartic, alanine and serine in particular. It also induced changes in nucleic acids (RNA and DNA) content. These changes occurred throughout the entire period of the experiments (12 days). Separate administration of NaCl or mannitol enhanced the occurrence of particular novel proteins that were not detected in control bean seeds (water medium). Protein banding patterns of broad bean seedlings treated with NaCl or mannitol in combination with 4 mM ascorbic acid showed different de novo protein bands, with different molecular weights, at different stages of seedlings growth, with lower levels or a nearly complete absence of the major stress proteins. The pattern of changes for amino acids and nucleic acids and the range of protein bands extracted from the variously treated broad bean seedlings indicate a positive role of ascorbic acid in the alleviation of the damage effects induced by NaCl and mannitol. The importance of this role in the stress tolerance of broad beans is discussed.