On the cellular localization of the components of the herpes simplex virus type 1 helicase-primase complex and the viral origin-binding protein

ABSTRACT Herpes simplex virus type 1 (HSV-1) encodes a heterotrimeric helicase-primase (UL5/8/52) complex. UL5 contains seven motifs found in helicase superfamily 1, and UL52 contains conserved motifs found in primases. The contributions of each subunit to the biochemical activities of the complex, however, remain unclear. We have previously demonstrated that a mutation in the putative zinc finger at UL52 C terminus abrogates not only primase but also ATPase, helicase, and DNA-binding activities of a UL5/UL52 subcomplex, indicating a complex interdependence between the two subunits. To test this hypothesis and to further investigate the role of the zinc finger in the enzymatic activities of the helicase-primase, a series of mutations were constructed in this motif. They differed in their ability to complement a UL52 null virus: totally defective, partial complementation, and potentiating. In this study, four of these mutants were studied biochemically after expression and purification from insect cells infected with recombinant baculoviruses. All mutants show greatly reduced primase activity. Complementation-defective mutants exhibited severe defects in ATPase, helicase, and DNA-binding activities. Partially complementing mutants displayed intermediate levels of these activities, except that one showed a wild-type level of helicase activity. These data suggest that the UL52 zinc finger motif plays an important role in the activities of the helicase-primase complex. The observation that mutations in UL52 affected helicase, ATPase, and DNA-binding activities indicates that UL52 binding to DNA via the zinc finger may be necessary for loading UL5. Alternatively, UL5 and UL52 may share a DNA-binding interface.

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Origin Binding Protein-Containing Protein-DNA Complex Formation at Herpes Simplex Virus Type 1 oriS: Role in oriS-Dependent DNA Replication

Journal of Virology ◽

10.1128/jvi.75.15.6808-6816.2001 ◽

2001 ◽

Vol 75 (15) ◽

pp. 6808-6816 ◽

Cited By ~ 4

Author(s):

Jennifer A. Isler ◽

Priscilla A. Schaffer

Keyword(s):

Herpes Simplex Virus ◽

Dna Replication ◽

Herpes Simplex ◽

Complex Formation ◽

Virus Type ◽

Herpes Simplex Virus Type ◽

Origin Binding Protein ◽

Simplex Virus ◽

Dna Complex

ABSTRACT Initiation of herpes simplex virus type 1 (HSV-1) DNA replication during productive infection of fibroblasts and epithelial cells requires attachment of the origin binding protein (OBP), one of seven essential virus-encoded DNA replication proteins, to specific sequences within the two viral origins, oriL and oriS. Whether initiation of DNA replication during reactivation of HSV-1 from neuronal latency also requires OBP is not known. A truncated protein, consisting of the C-terminal 487 amino acids of OBP, termed OBPC, is the product of the HSV UL8.5 gene and binds to origin sequences, although OBPC's role in HSV DNA replication is not yet clear. To characterize protein-DNA complex formation at oriS in cells of neural and nonneural lineage, we used nuclear extracts of HSV-infected nerve growth factor-differentiated PC12 and Vero cells, respectively, as the source of protein in gel shift assays. In both cell types, three complexes (complexes A, B, and C) which contain either OBP or OBPC were shown to bind specifically to a probe which contains the highest-affinity OBP binding site in oriS, site 1. Complex A was shown to contain OBPC exclusively, whereas complexes B and C contained OBP and likely other cellular proteins. By fine-mapping the binding sites of these three complexes, we identified single nucleotides which, when mutated, eliminated formation of all three complexes, or complexes B and C, but not A. In transient DNA replication assays, both mutations significantly impaired oriS-dependent DNA replication, demonstrating that formation of OBP-containing complexes B and C is required for efficient initiation of oriS-dependent DNA replication, whereas formation of the OBPC-containing complex A is insufficient for efficient initiation.

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