Abstract
The cytokinin (CK) type B response regulator (RRB) gene is involved in the CK signaling pathway and performs a key function for mediating reactions to amounts of abiotic stresses. Nevertheless, the RRB gene family remains to be characterized in Poaceae (also known as Gramineae or grasses). Here, we performed a comprehensive analysis encompassing phylogenetic relationships, evolutionary pressures, and expression patterns of the RRB gene family in six Poaceae species, including rice, Panicum, Sorghum, Setaria, maize, and wheat. Phylogenetic tree and syntenic analyses revealed that the RRB genes were divided into seven orthologous gene clusters (OGCs), indicating that the common ancestor of these Poaceae species possessed at least seven RRB genes. Further analysis revealed that the evolution of the Poaceae RRB gene family was primarily driven by purifying selection. The expression pattern of rice OsRRB toward phytohormonal and abiotic stresses was also investigated. The findings revealed that several phytohormones, including cytokinin (CK), abscisic acid (ABA), and methyl jasmonate (MeJA), as well as abiotic factors such as drought and cold, significantly increased the expression levels of these genes. Importantly, haplotype analysis identified four crucial variation sites within the OsRRB5 genomic regions that may contribute to drought resistance in rice. Our findings lay the groundwork for further elucidating the biological function of OsRRB genes and provide a promising new target for developing stress-resistant rice varieties.