ABSTRACT
Heveins are one of the most important groups of plant antimicrobial peptides. So far, various roles in plant growth and development and in response to biotic and abiotic stresses have reported for heveins. The present study aimed to identify and characterize the hevein genes in two-row and six-row cultivars of barley. In total, thirteen hevein genes were identified in the genome of two-row and six-row cultivars of barley. The identified heveins were identical in two-row and six-row cultivars of barley and showed a high similarity with heveins from other plant species. The hevein coding sequences produced open reading frames (ORFs) ranged from 342 to 1002 bp. Most of the identified hevein genes were intronless, and the others had only one intron. The hevein ORFs produced proteins ranged from 113 to 333 amino acids. Search for conserved functional domains showed CBD and LYZ domains in barley heveins. All barley heveins comprised extracellular signal peptides ranged from 19 to 35 amino acids. The phylogenetic analysis divided barley heveins into two groups. The promoter analysis showed regulatory elements with different frequencies between two-row and six-row cultivars. These cis-acting elements included elements related to growth and development, hormone response, and environmental stresses. The expression analysis showed high expression level of heveins in root and reproductive organs of both two-row and six-row cultivars. The expression analysis also showed that barley heveins is induced by both biotic and abiotic stresses. The results of antimicrobial activity prediction showed the highest antimicrobial activity in CBD domain of barley heveins. The findings of the current study can improve our knowledge about the role of hevein genes in plant and can be used for future studies.
ABSTRACT
Six full-length gene and cDNA sequences of defensin were identified from Lens culinaris L. plant. The identified genes and cDNAs were different in length and their coding sequences contained Knot1 functional domain. Phylogenetic analysis classified the identified defensins into two subfamilies. All defensin genes contained only one intron and had extracellular signal peptides. Secondary structures of identified defensins were completely composed of alpha helix and beta strand. Presence of conserved Cys amino acids and disulfide bridges, interaction with defense and signaling proteins and antimicrobial activity were other common features of these peptides. The identified defensins displayed differential expression pattern in the various tissues. The highest expression level of defensins was observed in seed, pod, and root tissues. Defensin 4 was significantly expressed in all examined tissues, whereas the other defensins were only expressed in some tissues. Also, in the fungal and wounding treatments, lentil defensins showed different expression pattern. Defensin 1 was up-regulated in both fungal and wounding treatments. Defensin 4 showed decreased expression level in both fungal and wounding treatments. Defensins 2 and 6 were up-regulated in wounding and fungal treatments, respectively. In this study, for the first time, six defensin genes were isolated and characterized from lentil. Our results highlighted the role of defensins in lentil plant that can be used for future studies.
