Herpes simplex virus type 1 origin binding protein UL9 tethers and loops origin- and non-origin-DNA intra- and intermolecularly

Herpesviruses are ubiquitous human pathogens, which are the causative agent of mild to severe symptoms ranging from cold sore to nasopharyngeal carcinoma. Even though replication of the linear dsDNA genome has been studied for decades, we still lack a complete molecular understanding of its mechanism. It has been proposed, but never shown directly, that the HSV-1 origin binding protein UL9 binds two closely located binding sites within the oriS origin sequence, thereby mediating origin looping, which in turn facilitates replication initiation. Here, we used an array of single-molecule approaches to test this long-standing hypothesis directly. Surprisingly, the data show that UL9 does not loop oriS efficiently. However, we demonstrate that UL9 can form large DNA loops at non-origin sequences very efficiently, as well as tether two oriS DNA molecules intermolecularly. Contrary to the origin bending hypothesis, our findings indicate that UL9 does not loop oriS DNA, but rather may play an alternative role in replication initiation, such as tethering two separate molecules to facilitate recombination.