Late embryogenesis abundant (LEA) proteins are synthesized abundantly during late stage of seed development and can be induced by desiccation stress and/or ABA treatment. LEA proteins are widely found in plant and animal systems and classified into 5 groups according to amino acid sequences and conserved motifs. Interestingly, a tandem repeat motif of 11 amino acids is found in the group 3 LEA proteins. An ABA-responsive barley (Hordeum vulgare L.) gene HVA1, encodes a group 3 LEA protein and can improve stress tolerance when transformed into rice, wheat and oat. Here we try to analyze the physiological function of HVA1 in dicot and delineate the functional domain of HVA1. Overexpressing HVA1 variants in Arabidopsis did not change the phenotype and morphology of plants under normal or stress (drought and freezing) conditions. However, transgenic Arabidopsis plants overexpressing N-terminal region of HVA1 (amino acid residues 1 through 102 in the N-terminal region of HVA1), showed higher salt and hyperosmotic stress tolerance than that of wild-type and other transgenic lines during seed germination. These results suggest that N-terminal region of HVA1 (N1~102) is sufficient to confer stress tolerance. Furthermore, transient expression of Ose730-GFP fusion protein in cells demonstrated that rice LEA 3 protein was localized in both nuclei and cytoplasm.