Cloning the interferon regulatory factor 1 gene in lungfish (Protopterus annectens) and its molecular evolution among sarcopterygians

Abstract

Sarcopterygians is an important vertebrate clade that includes crossopterygians and tetrapods. Crossopterygians are lobe-finned fish that include lungfish and coelacanths. Tetrapods include amphibians, reptiles, avians and mammals. To compare the interferon regulatory factor 1 (irf-1) gene structure and to explore phylogenetic relationships among sarcopterygians, we cloned the cDNA sequence of irf-1 from lungfish and compared it with irf-1 orthologs in other sarcopterygian species. The lungfish is a primitive sarcopterygian that occupies a very important position in vertebrate phylogeny. Interferon regulatory factors (IRFs) are a family of proteins involved in innate immunity. To date, 11 IRF family members have been reported. All IRFs share homology in the first 115 amino acids, which encompasses a DNA binding domain containing a characteristic repeat of 5 tryptophan residues separated by 10–18 amino acids. IRF-1 and IRF-2 were the first members of this family to be reported and they have a very important role in innate immunity. However, studies of the irf-1 and irf-2 genes are mostly confined to mammals; very few non-mammalian irf-1 genes have been reported. Consistent with the irf-1 gene sequences already published, the first 345 nucleotides of lungfish irf-1 are highly conserved. At the carboxyl terminal a C-terminal transactivating region motif and an interferon associated domain (IAD2) were identified. 417 million years separate the present from the closest common ancestor of lungfish and tetrapods; however, the irf-1 genes among sarcopterygians are highly conserved and have very obvious phylogenetic relationships. Also the interrelationship tree of sarcopterygians, based on IRF-1 amino acid sequences, is identical with trees produced using other data, such as morphological characteristics or mitochondrial gene sequences.