Abstract
PKD2 gene encodes a critical cation channel protein that plays important roles in various developmental processes and is usually evolutionarily conserved. In the present study, we analyzed the evolutionary patterns of PKD2 and its homologous genes (PKD2L1, PKD2L2) from nine mammalian species. In this study, we demonstrated the orthologs of PKD2 gene family evolved under a dominant purifying selection force. Our results in combination with the reported evidences from functional researches suggested the entire PKD2 gene family are conserved and perform essential biological roles during mammalian evolution. In rodents, PKD2 gene family members appeared to have evolved more rapidly than other mammalian lineages, probably resulting from relaxation of purifying selection. However, positive selection imposed on synonymous sites also potentially contributed to this case. For the paralogs, our results implied that PKD2L2 genes evolved under a weaker purifying selection constraint than PKD2 and PKD2L1 genes. Interestingly, some loop regions of transmembrane domain of PKD2L2 exhibited higher P (N)/P (S) ratios than expected, suggesting these regions are more functional divergent in organisms and worthy of special attention.
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