Comparative analysis of the P-type ATPase gene family in seven Rosaceae species and an expression analysis in pear (Pyrus bretschneideri Rehd.).

P-type ATPases are integral membrane transporters that play important roles in transmembrane transport in plants. However, a comprehensive analysis of the P-type ATPase gene family has not been conducted in Chinese white pear (Pyrus bretschneideri) or other Rosaceae species. Here, we identified 419 P-type ATPase genes from seven Rosaceae species (Pyrus bretschneideri, Malus domestica, Prunus persica, Fragaria vesca, Prunus mume, Pyrus communis and Pyrus betulifolia). Structural and phylogenetic analyses revealed that P-type ATPase genes can be divided into five subfamilies. Different subfamilies have different conserved motifs and cis-acting elements, which may lead to functional divergence within one gene family. Dispersed duplication and whole-genome duplication may play critical roles in the expansion of the P-type ATPase family. Purifying selection was the primary force driving the evolution of P-type ATPase family genes. Based on the dynamic transcriptome analysis and transient transformation of Chinese white pear fruit, Pbr029767.1 in the P_3A subfamily were found to be associated with malate accumulation during pear fruit development. Using a co-expression network, we identified several transcription factors that may have regulatory relationships with the P-type ATPase gene family. Overall, this study lays a solid foundation for understanding the evolution and functions of P-type ATPase genes in Chinese white pear and six other Rosaceae species.