HK97 gp74 Possesses an α-Helical Insertion in the ßßα Fold That Affects Its Metal Binding, cos Site Digestion, and In Vivo Activities.

The last gene in the genome of the bacteriophage HK97 encodes gp74, an HNH endonuclease. HNH motifs contain two conserved His residues and an invariant Asn residue, and they adopt a ßßα structure. gp74 is essential for phage head morphogenesis, likely because gp74 enhances the specific endonuclease activity of the HK97 terminase complex. Notably, the ability of gp74 to enhance the terminase-mediated cleavage of the phage cos site requires an intact HNH motif in gp74. Mutation of H82, the conserved metal-binding His residue in the HNH motif, to Ala abrogates gp74-mediated stimulation of terminase activity. Here, we present nuclear magnetic resonance (NMR) studies demonstrating that gp74 contains an α-helical insertion in the Ω-loop, which connects the two ß-strands of the ßßα fold, and a disordered C-terminal tail. NMR data indicate that the Ω-loop insert makes contacts to the ßßα fold and influences the ability of gp74 to bind divalent metal ions. Further, the Ω-loop insert and C-terminal tail contribute to gp74-mediated DNA digestion and to gp74 activity in phage morphogenesis. The data presented here enrich our molecular-level understanding of how HNH endonucleases enhance terminase-mediated digestion of the cos site and contribute to the phage replication cycle.IMPORTANCE This study demonstrates that residues outside the canonical ßßα fold, namely, the Ω-loop α-helical insert and a disordered C-terminal tail, regulate the activity of the HNH endonuclease gp74. The increased divalent metal ion binding when the Ω-loop insert is removed compared to reduced cos site digestion and phage formation indicates that the Ω-loop insert plays multiple regulatory roles. The data presented here provide insights into the molecular basis of the involvement of HNH proteins in phage DNA packing.

Strategies for purification of the bacteriophage HK97 small and large terminase subunits that yield pure and homogeneous samples that are functional.

Packaging the viral genome in the head of double-stranded DNA viruses, such as bacteriophages, requires the activity of a terminase. The bacteriophage terminase consists of a small terminase subunit (TerS), which binds the viral DNA, and a large terminase subunit (TerL) that possesses the ATPase and nuclease activities for packaging the DNA in the phage head. Some phages require additional components for DNA packaging, such as the HNH endonuclease gp74 in the bacteriophage HK97. Gp74 enhances the activity of terminase-mediated digestion of the cohesive (cos) site that connects individual genomes in phage concatemeric DNA, a pre-requisite to DNA packaging, and this enhancement requires an intact HNH motif in gp74. Testing of whether gp74 alters the terminase DNA binding or enzymatic activities requires obtaining isolated samples of pure TerS and TerL, which has been challenging owing to the poor solubility of these proteins. To this end, we developed methods to obtain purified TerS and TerL proteins that are active. TerS is expressed solubly in E. coli as a fusion with SUMO, which can be removed during purification to yield a TerS nonamer (TerS9). Homogenous samples of a TerL monomer are also obtained, but the homogeneity of the sample depends on the solution conditions, as seen for other terminases. DNA binding, ATPase, and nuclease assays demonstrate that our preparations of TerS9 and TerL are functional, and that they also function with gp74. Purified TerS9 and TerL enable studies into the molecular basis by which gp74 regulates terminase activity in phage maturation.