Gene synteny, evolution and antiviral activity of type I IFNs in a reptile species, the Chinese soft-shelled turtle Pelodiscus sinensis

Type I interferons (IFNs) are critical cytokines for the establishment of antiviral status in fish, amphibian, avian and mammal, but the knowledge on type I IFNs is rather limited in reptile. In this study, seven type I IFN genes, designed as IFN1 to IFN7, were identified from a reptile species, the Chinese soft-shelled turtle (Pelodiscus sinensis). These identified type I IFNs have relatively low protein identity, when compared with those in human and chicken; but they possess conserved cysteines, predicted multi-helix structure and N-terminal signal peptide. The Chinese soft-shelled turtle IFN1 to IFN5 have two exons and one intron, but IFN6 and IFN7 are the singleexon genes. Chinese soft-shelled turtle type I IFNs are located respectively on the two conserved reptile-bird loci, named as Locus a and Locus c, and are clustered into the four of the five reptile-bird groups (named as Groups I-V) based on phylogenetic evidence, due to the lack of IFNK in the turtle. Moreover, the Chinese soft-shelled turtle type I IFNs can be induced by soft-shelled turtle iridovirus (STIV) infection and show antiviral activity in soft-shelled turtle artery (STA) cells, except IFN6. In addition, due to the difference in genome organizations, such as the number of exons and introns of type I IFN genes from fish to mammal, the definition and evolution of 'intronless' type I IFN genes were discussed in lineages of vertebrates. Thus, the finding of type I IFNs on two different loci in P. sinensis sheds light on the evolution of type I IFN genes in vertebrates.