The cleavage recognition signal is contained within sequences surrounding an a-a junction in herpes simplex virus DNA

Abstract

Herpesvirus genome maturation involves site-specific cleavage of viral DNA concatemers and encapsidation of unit-length molecules, processes that are apparently coupled. Here, applying a transfection-infection approach, we have investigated the arrangement of the DNA sequence elements involved in cleavage and shown that specific cleavage occurs independently of DNA replication. We show that the cis-acting signal for cleavage is located within a 179-bp fragment from across an a-a junction formed as part of the genome maturation process of herpes simplex virus 1. Plasmids carrying the 179-bp fragment are cleaved at the appropriate site even though they are unable to replicate in HSV-infected cells. When linked to an origin, the same 179-bp a-a fragment will replicate and package into progeny virus as a defective genome. Two highly conserved homologies, pac1 and pac2, that have been observed in all herpesviruses examined, including cytomegalovirus, Epstein-Barr virus, varicella-zoster virus, and herpes simplex virus 2 as well as the herpes simplex virus 1 genome, are contained within the 179-bp fragment. This suggests that a common mechanism is utilized for genome maturation in the herpesvirus group.