Genome wide identification and expression profiling of PYL genes in barley

PYLs (pyrabactin resistance1/PYR1-like) sense ABA, an essential phytohormone that regulates plant growth and stress responses. PYLs act as the main controllers of ABA stress signaling in plants. In this study, a total of 10 HvPYLs were discovered in the barley genome using an in silico genome search technique. These HvPYLs were then grouped into 3 subfamilies based on a phylogenetic analysis that compared them to the genomes of Arabidopsis, Brachypodium, rice, and maize. These HvPYLs demonstrated conserved motif compositions and identical protein structures across clades. Additionally, this study includes detailed investigations of gene structure variations, chromosomal distributions, cis-regulatory elements, protein-protein interactions, expression profiles in different tissues, and stress responses. We identified various cis-elements in the HvPYL promoter regions related to plant development and stresses indicating their potential roles in development and stress management. Our analysis of the interaction network has identified that HvPYLs can interact with key components of the ABA signaling pathway, demonstrating the critical regulatory functions of HvPYL genes in managing stress and growth in barley. These findings provide a basis for future research aimed at exploring the functions of PYL genes, with the ultimate goal of enhancing stress tolerance in barley and other related species.