The tripartite motif (TRIM) gene family encodes diverse distinct proteins that play important roles in many biological processes. However, the molecular evolution and phylogenetic relationships of TRIM genes in primates are still elusive. We performed a genomic approach to identify and characterize TRIM genes in human and other six primate genomes. In total, 537 putative functional TRIM genes were identified and TRIM members varied among primates. A neighbor joining (NJ) tree based on the protein sequences of 82 human TRIM genes indicates seven TRIM groups, which is consistent with the results based on the architectural motifs. Many TRIM gene duplication events were identified, indicating a recent expansion of TRIM family in primate lineages. Interestingly, the chimpanzee genome shows the greatest TRIM gene expansion among the primates; however, its congeneric species, bonobo, has the least number of TRIM genes and no duplication event. Moreover, we identified a ~ 200 kb deletion on chromosome 11 of bonobos that results in a loss of cluster3 TRIM genes. The loss of TRIM genes might have occurred within the last 2 mys. Analysis of positive selection recovered 9 previously reported and 21 newly identified positively selected TRIM genes. In particular, most positive selected sites are located in the B30.2 domains. Our results have provided new insight into the evolution of primate TRIM genes and will broaden our understanding on the functions of the TRIM family.
Keywords: Molecular evolution; Positive selections; Primates; TRIM family.