A transposable element-mediated gene divergence that directly produces a novel type bovine Bcnt protein including the endonuclease domain of RTE-1

Ruminant Bcnt protein with a molecular mass of 97 kDa (designated p97Bcnt) includes a region derived from the endonuclease domain of a retrotransposable element RTE-1. Human and mouse Bcnt proteins lack the corresponding region but have a highly conserved 82-amino acid region at the C-terminus that is not present in p97Bcnt. By screening a bovine BAC library, we found two more bcnt-related genes: human-type bcnt (h-type bcnt) and its processed pseudogene. Whereas the pseudogene is localized on chromosome 26, both bcnt^p97 and the h-type bcnt genes are found on bovine chromosome 18, a synteny region of human chromosome 16 on which human BCNT is localized. Complete nucleotide sequencing of the BAC clone reveals that the bcnt^p97 and h-type bcnt genes are located just 6 kb apart in a tandem manner. The two h-type bcnt and bcnt^p97 genes are active at both the transcriptional level and the protein level. H-type bovine Bcnt is more like human BCNT than p97Bcnt, when compared at their N-terminal regions. However, phylogenetic analysis using the N-terminal region of the bcnt gene family revealed that the duplication of bovine genes occurred within the bovine lineage with significantly accelerated substitution in bcnt^p97. This acceleration was not ascribed definitely to positive selection. After duplication, one of the bovine bcnt genes recruited the endonuclease domain of an intronic RTE-1 repeat accompanied by the accelerated substitution at the 5′-ORF, resulting in creation of a novel type of Bcnt protein in bovine.