Evolution and Genetic Diversity of the Retroviral Envelope in Anamniotes.

Retroviruses are widely distributed in all vertebrates, as are their endogenous forms, endogenous retroviruses (ERV), which serve as "fossil" evidence to trace the ancient origins and history of virus-host interactions over millions of years. The retroviral envelope (Env) plays a significant role in host range determination, but major information on their genetic diversification and evolution in anamniotes is lacking. Here, by incorporating multiple-round similarity search and phylogenomic analysis, more than 30,000 copies of ERV lineages with gamma-type Env (GTE), covalently associated Env, were discovered by searching against all fish and amphibian genomes and transcriptomic assemblies, but no beta-type Env (BTE), noncovalently associated Env, was found. Furthermore, a nine-type classification system of anamniote GTE was proposed by combining phylogenetic and domain/motif analyses. The elastic genomic organization and overall phylogenetic incongruence between anamniotic Env and its neighboring polymerase (Pol) implied that early retroviral diversification in anamniotic vertebrates was facilitated by frequent recombination. At last, host cellular opioid growth factor receptor (OGFr) gene capturing by anamniotic ERVs with GTE was reported for the first time. Overall, our findings overturn traditional Pol genotyping and reveal a complex evolutionary history of anamniotic retroviruses inferred by Env evolution. Although the retroviral envelope (Env) protein in amniotes has been well studied, its evolutionary history in anamniotic vertebrates is ambiguous. By analyzing more than 30,000 copies of ERV lineages with gamma-type Env (GTE) in anamniotes, several important evolutionary features were identified. First, GTE was found to be widely distributed among different amphibians and fish. Second, nine types of GTE were discovered and defined, revealing their great genetic diversity. Third, the incongruence between the Env and Pol phylogenies suggested that frequent recombination shaped the early evolution of anamniote retroviruses. Fourth, an ancient horizontal gene transfer event was discovered from anamniotes to ERVs with GTE. These findings reveal a complex evolution pattern for retroviral Env in anamniotes.