Late embryogenesis abundant (LEA) proteins are known to be associated with stress responses in plants, such as dehydration, cold, high salinity, or abscisic acid (ABA) treatment. A previous study showed that group four lea mutants, lea 4-1/4-2 double mutant and lea 4-5 single mutant have lower germination rate in comparison to wild type in salt stress. LEA overexpression plants show tolerant phenotypes under many abiotic stresses. However, it is unclear whether other group four LEAs function during salt stress and ABA responses. On the other hand, our microarray data show that LEA4-3 might be a candidate target of ABF3. I aim to investigate the relationship between ABF3 and LEA4-3 in the transcriptional network, and the function of LEA4-3 in salt stress and ABA responses in Arabidopsis. In the abf3 mutant, LEA gene expression is lower than wild type under salt and ABA treatment. Chromatin immunoprecipitation (ChIP) analysis results showed that ABF3 binds to the promoter of LEA4-3. Phenotypic analysis of lea4-3 mutant lines displayed lower seed germination rate than wild type in ABA treatment, and the seed germination rate of the lea4-3 mutant line was higher than wild type in salt treatment. In addition, the primary root length of LEA4-3 overexpression lines was longer than WT in ABA and salt stress condition. Taken together, these reveal that LEA4-3 may participate in ABA and salt stress response in Arabidopsis.