A group 3 LEA cDNA of rice, responsive to abscisic acid, but not to jasmonic acid, shows variety-specific differences in salt stress response

Abstract

A cDNA clone oslea3, encoding a group 3 late-embryogenesis abundant (LEA) protein was isolated from roots of rice seedlings ( Oryza sativa L.). The encoded OSLEA3 protein has previously been found to accumulate to higher levels in roots of two salt-tolerant compared to a salt-sensitive rice variety in response to abscisic acid (ABA) [Moons et al., 1995. Plant Physiol. 107, 177–186]. The OSLEA3 protein ( M r 20.5, p I 6.5) characteristically contains ten imperfect 11-mer amino acid repeats. Exogenous application of ABA and exposure to salt shock (150 mM NaCl) rapidly induces a de novo, abundant oslea3 transcript accumulation in seedling roots, whereas application of jasmonic acid (9 μM) does not induce oslea3 expression. The stress-induced oslea3 transcript gradually declined upon prolonged salt shock, as wilting-induced damage became irreversible. oslea3 expression was compared for the salt-tolerant variety Pokkali and the salt-sensitive cultivar Taichung N1. Higher maximal mRNA levels were found in roots of the tolerant variety, also declining less rapidly upon sustained salt shock, concomitant with a delayed drop in shoot water content. DNA blot analysis indicated the existence of a small oslea3 gene family in rice with an equal gene number in both ecotypes. The results suggest that a differential regulation of oslea3 expression is an aspect of the varietal differences in salt stress tolerance.