Organization of type C viral DNA sequences endogenous to baboons: analysis with cloned viral DNA

Abstract

Unintegrated linear and circular forms of baboon endogenous type C virus M7 DNA were prepared from M7-infected cells by chromatography on hydroxyapatite columns, and the circular DNAs were purified in cesium chloride-ethidium bromide equilibrium density gradients. The circular DNAs were linearized by digestion with EcoRI, which had a unique site on the viral DNA. The linearized DNA was then inserted into lambda gtWES. lambda B at the EcoRI site and cloned in an approved EK2 host. Molecularly cloned full-length M7 DNA was restricted with BamHI, and the resulting five subgenomic fragments were then subcloned individually in plasmid pBR322. The organization and sites of integration of the approximately 100 copies of M7 DNA sequences endogenous to baboons were investigated by digesting the DNA with restriction enzymes and identifying the virus-specific fragments by hybridization to labeled probes made by using the molecularly cloned full-length and subgenomic fragments of the viral DNA. We found that most of the endogenous sequences had sizes and organizations similar to those of the unintegrated viral DNA and therefore approximately similar to the RNA of the infectious virus. A few of the multiple sequences had deletions in the 3' end (envelope region), and some of the sequences either lacked or contained modified BamHI restriction sites on the 5' end of the viral DNA. The endogenous viral DNA sequences were nontandem, uninterrupted, and colinear with the DNA of the infectious virus, and they were integrated at different sites in the baboon DNA, like the M7 proviral DNA sequences acquired upon infection.