Brome mosaic bromovirus (BMV), a tripartite plus-sense RNA virus, has been used as a model system to study homologous RNA recombination among molecules of the same RNA component. Pairs of BMV RNA3 variants carrying marker mutations at different locations were coinoculated on a local lesion host, and the progeny RNA3 in a large number of lesions was analyzed. The majority of doubly infected lesions accumulated the RNA3 recombinants. The distribution of the recombinant types was relatively even, indicating that both RNA3 counterparts could serve as donor or as acceptor molecules. The frequency of crossovers between one pair of RNA3 variants, which possessed closely located markers, was similar to that of another pair of RNA3 variants with more distant markers, suggesting the existence of an internal recombination hot spot. The majority of crossovers were precise, but some recombinants had minor sequence modifications, possibly marking the sites of imprecise homologous crossovers. Our results suggest discontinuous RNA replication, with the replicase changing among the homologous RNA templates and generating RNA diversity. This approach can be easily extended to other RNA viruses for identification of homologous recombination hot spots.It is generally accepted that RNA recombination contributes significantly to the diversity of viruses with RNA genomes (37). However, little experimental evidence supports the occurrence of high-frequency recombination in the virus life cycle. The processes of RNA replication and RNA recombination have been studied extensively in brome mosaic bromovirus (BMV), a tripartite positive-strand RNA virus (12). BMV RNA1 and RNA2 code, respectively, for the 1a and 2a proteins (the viral components of the replicase complex), while RNA3 encodes the 3a (movement) and coat proteins (2). Both homologous and nonhomologous recombination events have been observed among different BMV RNAs (24). Homology-supported crossovers can occur between two nearly identical RNAs (or within nearly identical regions), while nonhomologous crosses can occur between nonrelated RNAs or dissimilar regions (8,16,29). The frequency of homologous intersegmental crosses in BMV is approximately 10-fold higher than that of the nonhomologous crosses (24). In addition to BMV, homologous RNA recombination has been demonstrated for picornaviruses (18-20, 35), coronaviruses (21, 23, 42), for cowpea chlorotic mottle bromovirus (3), tombusviruses (41), and bacteriophages (31). Homology-driven recombination of non-replicative RNA precursors has been reported for Sindbis virus within the overlapping sequences (34).Homologous crossovers among different BMV RNA segments appear to require common 15-to 60-nucleotide (nt) sequences (26) which are composed of GC-rich regions followed by AU-rich regions (27,28). A proposed templateswitching mechanism (27, 28) predicts that the replicase enzyme pauses (stalls) at the AU-rich sequence on a donor BMV RNA molecule and switches to the acceptor template while the upstream GC-rich region facilitate...