A specific viral DNA sequence is stably integrated in herpesvirus oncogenically transformed cells |
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Authors: | R A Robinson D J O'Callaghan |
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Affiliation: | Department of Microbiology University of Mississippi Medical Center Jackson, Mississippi 39216 USA |
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Abstract: | The integration patterns of viral DNA sequences in three hamster embryo cell lines independently derived by transformation with equine herpesvirus type 1 (EHV-1) have been investigated by DNA blot hybridization analyses for the restriction enzymes Eco RI, Bgl II, Xba I and Bam HI with 32P-labeled selected DNAs from a collection of cloned EHV-1 restriction enzyme fragments as probes. These EHV-1-transformed cell lines contained subgenomic portions of the viral genome in an integrated state at multiple sites in the host genome. At least one copy of a viral DNA sequence mapping colinearly from 0.32 to 0.38 map units within the EHV-1 genome was common among these three EHV-1 transformed cell lines. The 0.32–0.38 viral DNA sequence was maintained stably even after 125 cell passages, whereas sequences from other positions in the EHV-1 genome were lost progressively during continued cell passage. The significance of the findings that these oncogenically transformed cell lines harbor a specific region of the EHV-1 genome is discussed with regard to stable maintenance of the oncogenically transformed state. |
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