Abstract
Although it grows well in bulk infection, human adenovirus type 12 (Ad12) does not plaque efficiently in Vero cells of simian origin. After long-term passage of the virus or after transfection of Ad12 DNA into these cells, however, transformation-defective, host-range mutants giving high plaque yields in Vero cells were isolated. The original mutants have deletions in both E1a and E1b as well as additions of viral sequences at the right terminus of the genome. We have constructed a recombinant virus (Ad12d169) carrying both E1 alterations of the original mutant CS-1 on the Ad12 wild-type background. Another mutant (Ad12mut2) has additional sequences at the right terminus and an intact E1 region. In plaque assays mutant virus Ad12d169 carrying E1a deletions has an about thousandfold higher efficiency in Vero cells than Ad12wt and Ad12mut2, mapping the enhanced replication in Vero cells to the deletions in E1. Mechanical models for the influence of the E1 deletions, for example by up-regulation of the E2-encoded DNA-binding protein, are discussed to explain the efficient replication of mutant adenoviruses in Vero cells under plaque assay conditions.
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