Characterization of heterosubunit complexes formed by the R1 and R2 subunits of herpes simplex virus 1 and equine herpes virus 4 ribonucleotide reductase

摘要

We report on the separate PCR cloning and subsequent expression and purification of the large (R1) and small (R2) subunits from equine herpes virus type 4 (EHV-4) ribonucleotide reductase. The EHV-4 RI and R2 subunits reconstituted an active enzyme and their abilities to complement the R1 and R2 subunits from the closely related herpes simplex virus 1 (HSV-I) ribonucleotide reductase, with the use of subunit interaction and enzyme activity assays, were analysed. Both EHV-4 R1/HSV-1 R2 and HSV-I R1/EHV-4 R2 were able to assemble hetero-subunit complexes but, surprisingly, neither of these complexes was fully active in enzyme activity assays; the EHV-4 R1/HSV-1 R2 and HSV-1 R1/EHV-4 R2 enzymes had 50 Sb and 5% of their respective wild-type activities. Site-directed mutagenesis was used to alter two non-conserved residues located within the highly conserved and Functionally important C-termini of the EHV-4 and HSV-1 R1 proteins. Mutation of Pro-737 to Lys and Lys-1084 to Pro in EHV-4 and HSV-1 R1 respectively had no effects on subunit assembly. Mutation of Pro-737 to Lys in EHV4 R1 decreased enzyme activity by 50%; replacement of Lys-1084 by Pro in HSV-1 R1 had no effect on enzyme activity. Both alterations failed to restore full enzyme activities to the heterosubunit enzymes. Therefore probably neither of these amino acids has a direct role in catalysis. However, mutation of the highly conserved Tyr-1111 to Phe in HSV-I R1 inactivated enzyme activity without affecting subunit interaction. [References: 36]