Abstract
β-amylase activity is related to the polymorphism of Bmy1 intron III; however, no attention has been given to such relationship under environmental stresses like drought. In this study, 73 cultivated barley genotypes and 52 Tibetan wild barley accessions were used to test the association between Bmy1 gene intron III polymorphisms and β-amylase activity under drought stress. Our results showed that three alleles, Bmy1.a, Bmy1.b and Bmy1.c, existed in the examined barley genotypes. Tibetan wild barley had higher proportion of Bmy1.b, whereas cultivated barley showed higher proportion of Bmy1.a. Impressively, barley genotypes with Bmy1.b showed significant increase in β-amylase activity under drought stress, compared with those with Bmy1.a or Bmy1.c, indicating that Bmy1.b allele might provide more chances for developing barley cultivars with higher β-amylase activity under water stress than both Bmy1.a and Bmy1.c alleles. Furthermore, the Tibetan wild barley XZ147, belonging to Bmy1.b allele type, showed significant higher β-amylase activity than the cultivar Triumph under drought stress. This might result from the unique amino acid substitution M527 or the amino acid composition of R115, D165, A233, S347 and M527 of XZ147.
Assessment genetic structure of Azerbaijan wild and cultivated barley genotypes by biochemical marker
