Effect of aspartic acid on physiological characteristics and gene expression of salt exclusion in Tartary buckwheat under salt stress

Salt-tolerant variety Chuanqiao No. 1 and salt-sensitive variety Chuanqiao No. 2 of Tartary buckwheat were used as experimental materials. The effect of aspartic acid on seed germination, physiological characteristics of seedlings and gene expression of salt exclusion in Tartary buckwheat were studied under NaCl stress of 150 mM. The results showed that the aspartic acid treatment could restore the seed germination rate and root vigor of seedlings to the control with non-damage level in salt-tolerant Tartary buckwheat variety under salt stress, and the salt-sensitive variety was increased greatly. Spraying aspartic acid had some protective effects on cell membrane of leaves in Tartary buckwheat under salt stress, and the protective effects were more obviously on salt-sensitive variety, and that could restore the activity of SOD and CAT of leaves to the control level in salt-tolerant Tartary buckwheat variety under salt stress, and the activity of antioxidant enzymes in salt-sensitive variety was increased significantly. The relative expression of FtNHX1 and FtSOS1 genes was increased significantly under salt stress, and that of FtNHX1 gene in salt-tolerant and salt-sensitive varieties was reached the maximum expression level at 12 h and 24 h respectively, while that of FtSOS1 gene in salt-tolerant and salt-sensitive varieties was reached the maximum expression level at 12 h, and the salt-tolerant variety was increased greatly. After spraying aspartic acid, the relative expression of FtNHX1 and FtSOS1 genes was increased more obviously. The relative expression of FtNHX1 gene in salt-tolerant and salt-sensitive varieties was reached the maximum expression level at 12 h, while that of FtSOS1 gene was reached the maximum expression level at 12 h and 24 h respectively, and that in salt-tolerant variety was increased especially more, indicating that spraying aspartic acid on gene expression of salt exclusion in salt-tolerant variety of Tartary buckwheat has a better effect under salt stress.