Abstract:
Analysis of the viral RNA in four Burkitt tumor biopsies indicates that tumor tissue contains RNA homologous to at least 3–6% of the DNA of Epstein-Barr virus (EBV). Most of these RNA species accumulate in the polyadenylated RNA fraction of Burkitt tumor tissue. Two approaches have been used to determine the location within the EBV genome of the DNA sequences which encode stable RNA in two Burkitt tumor biopsies, F and S, which contain 6–10 copies per cell of at least 80% of the EBV genome. With the first approach, 32P-EBV DNA homologous to polyadenylated or nonpolyadenylated RNAs from the F, S or R tumors was hybridized to blots of fragments of EBV DNA. With the second approach, polyadenylated or nonpolyadenylated RNAs from the F or S tumors were hybridized to separated, labeled fragments of EBV DNA in solution. The results indicate that first, most of the viral RNA in Burkitt tumor tissue is encoded by approximately 20% of the Hsu I D fragment, 20% of the Eco RI A/Hsu I A double-cut fragment and 3% of the Hsu I B fragment of EBV DNA; second, an abundant RNA species in tumor tissue is homologous to the “additional DNA” present in the W91 and Jijoye/HR-I Burkitt tumor isolates of EBV and absent in the B95-8 virus, an isolate of EBV from outside the Burkitt endemic region; and third, there is little or no homology to other regions of the EBV genome.