New Insights into Structure and Function Predictions of TIFY Genes in Barley: A Genome-Wide Comprehensive Analysis

Abstract

Barley (Hordeum vulgare L.) is the fourth-largest cereal crop widely grown for livestock feed, brewing malts and human food. The TIFY family is a plant-specific protein family with diverse functions in plant growth, development and stress responses. However, a genome-wide comprehensive analysis of the TIFY gene family has not yet been characterized in Hordeum vulgare. In the present study, 21 and 22 TIFY family members were identified in the genomes of Hv_Morex and Hv_Barke, respectively. The HvTIFY proteins could be divided into the TIFY, ZIM/ZML and JAZ groups, and the JAZ group could be further clustered into six subgroups. HvTIFY genes were conserved in the two genotypes, and all of the duplicated gene pairs in the barley TIFY family were dominated by intense purifying selection. Tandem duplication was the main driving force for the expansion of the HvTIFY gene family. In silico gene expression profiling revealed most members of the Hv_Morex JAZ group were predominantly expressed in reproductive organs and root tissues and were also more involved in the responses to cold treatment and spot blotch infection than other groups. Quite a few JAZ genes (Hv_MoJAZ1, Hv_MoJAZ4, Hv_MoJAZ6, Hv_MoJAZ9, Hv_MoJAZ11, Hv_MoJAZ12 and Hv_MoJAZ14) were found to be tightly associated with the growth of barley and the responses to cold and spot blotch infection stresses. The genome-wide comprehensive analysis of the structure and function of the HvTIFY genes will contribute further to our understanding of the functions of these genes in response to abiotic and biotic stresses in Hordeum vulgare.