A truncated herpes simplex virus origin binding protein which contains the carboxyl terminal origin binding domain binds to the origin of replication but does not alter its conformation.

We have studied the DNA binding properties of a polypeptide consisting of the carboxyl terminal 37% of UL9, the herpes simplex virus type 1 (HSV-1) origin of replication binding protein. Using a Sindbis virus expression system, we expressed and partially purified this truncated form of UL9 (UL9CT) which contains the site-specific DNA binding domain. UL9CT specifically recognized UL9 binding sites on a 200 base pair DNA fragment containing the HSV origin ori(s) and appeared to bind as a dimer to each site. DNAse I footprint analysis showed that UL9CT protected the two high affinity binding sites of ori(s), but unlike full-length UL9, UL9CT did not induce a conformational change in the origin. Addition of anti-UL9CT antibody to the UL9CT-origin complex, however, caused a conformational change in the origin to be evident. Our results suggest that a domain, or domains, in the amino terminus are necessary for a UL9-induced origin conformational change to occur and that UL9-UL9 interactions between binding sites are involved.