SEQUENCE-ANALYSIS OF THE SIMIAN FOAMY VIRUS TYPE-1 GENOME

We have cloned the simian foamy virus type 1 genome (SFV1) and determined its nucleotide sequence. Analysis of this genome reveals, in addition to the usual genes encoding retroviral capsid, reverse transcriptase, and envelope protein (respectively, gag, pol, and env), two open reading frames (ORFs) between env and the long terminal repeat with partial homology to the human foamy virus (HFV) bel1 and bel2 genes. The first ORF could code for a polypeptide of 312 amino acids (aa) showing 40% homology with the HFV bel1 putative gene product. A more detailed analysis showed that the protein encoded by this ORF would have features characteristic of known trans-activating proteins. The second ORF could code for a polypeptide of 403 aa showing 38% homology with the putative HFV bel2 gene product. Moreover, the 5' extremity of the RNA genome can be folded into a secondary structure identical to the Tat-response element of human immunodeficiency viruses. A phylogenetic tree of retroviruses, including SFV1 and HFV, was constructed. It showed at the molecular level that Spumavirinae, previously classified on the basis of their morphology and their biological properties, constitute a separate group. The homology between SFV1 and HFV reaches 89% in the reverse transcriptase domain of the pol gene, but is much smaller in other parts of the genome.