Abstract: | The herpes simplex virus UL42 gene encodes a multifunctional polypeptide (UL42) that is essential for virus DNA replication. To further understand the relationship between the structure of UL42 and the role that it plays during virus replication, we analyzed an extensive set of mutant UL42 proteins for the ability to perform the three major biochemical functions ascribed to the protein:binding to DNA, stably associating with the virus DNA polymerase (Pol), and acting to increase the length of DNA chains synthesized by Pol. Selected mutants were also assayed for their ability to complement the replication of a UL42 null virus. The results indicated that the N-terminal 340 amino acids of UL42 were sufficient for all three biochemical activities and could also support virus replication. Progressive C-terminal truncation resulted in the loss of detectable DNA-binding activity before Pol binding, while several mutations near the N terminus of the polypeptide resulted in an altered interaction with DNA but had no apparent affect on Pol binding. More dramatically, an insertion mutation at residue 160 destroyed the ability to bind Pol but had no effect on DNA binding. This altered polypeptide also failed to increase the length of DNA product synthesized by Pol, and the mutant gene could not complement the growth of a UL42 null virus, indicating that the specific interaction between Pol and UL42 is necessary for full Pol function and for virus replication. This study confirms the validity of the Pol-UL42 interaction as a target for the design of novel therapeutic agents. |