Cleavage of concatemeric DNA at the internal junction of "translocation" mutants of pseudorabies virus and inversion of their L component appear to be linked
- PMID: 1310557
- DOI: 10.1016/0042-6822(92)90310-l
Cleavage of concatemeric DNA at the internal junction of "translocation" mutants of pseudorabies virus and inversion of their L component appear to be linked
Abstract
When pseudorabies virus (PrV) strains are grown in chicken embryo fibroblasts (CEF), variants ("translocation" mutants) arise in which there is a duplication of the leftmost sequences of the genome and their translocation in inverted orientation next to the internal inverted repeat bracketing the S component. In these variants, the UL becomes bracketed by inverted repeats and is found in two orientations relative to the Us. To study the cis-functions involved in cleavage of concatemeric DNA as well as those involved in inversion of the L component and to ascertain whether the two events are linked in the "translocation" mutants, a viral mutant (vLD68) was constructed in which the terminal 64 bp of the L component (that include sequences with homology to the pac 2 site of HSV) and the 4 terminal bp of the S component were deleted from the internal junction. Although revertants that have acquired the 68 bp at the internal junction emerge rapidly in populations of vLD68, analysis of the characteristics of this mutant revealed that: (1) the termini derived from both orientations of the L component include the 64 bp that have been deleted from the internal junction of vLD68; (2) in contrast to other "translocation" mutants, the internal junction of the vLD68 genome is not a good substrate for cleavage; (3) inversion of the L component of true vLD68 DNA does not occur or is rare; a good correlation exists in the populations of vLD68 between the proportion of revertants that have acquired an intact internal junction and the proportion of genomes with an L component that inverts. These results show that an intact internal junction in "translocation" mutants is necessary for both inversion of their L components and cleavage at their alternative internal junction. Since cleavage at the alternative junction will result in inversion of the L component, we conclude that inversion of the L component of "translocation" mutants of PrV can be attributed to cleavage of concatemeric DNA at the internal alternative junction.
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