Cloning and fine mapping the DNA of equine herpesvirus type one defective interfering particles.

Equine herpesvirus type one (EHV-1) defective interfering (DI) particle DNA fragments were inserted into the XbaI site of the plasmid vector pACYC184. Five DI XbaI fragments, which ranged in molecular weight from 4.5 to 6.7 MDa, were selected for detailed analysis. Each DI DNA clone was labeled with 32P-deoxynucleotides by nick translation and hybridized to genomic digests of EHV-1 standard (STD) DNA bound to nitrocellulose. All five clones were shown to hybridize to DNA sequences derived from the left terminus (0.0-0.04 map units) of the long (L) region and from the short (S) region inverted repeats (IRs, 0.79-0.86 and 0.93-1.00 map units) of the STD EHV-1 genome. Restriction enzyme mapping studies and Southern blot hybridizations employing cloned STD virus DNA fragments as probes revealed that these EHV-1 DI clones contain two major domains: (1) an L terminal region which maps to 0.01-0.04 map units and is highly conserved among all five clones, and (2) a region homologous to the IRs which appears to vary between individual clones.