Conformational changes in the activation loop of a bacterial PASTA kinase.

Many bacterial genomes encode a transmembrane protein kinase belonging to the PASTA kinase family, which controls numerous processes in diverse bacterial pathogens, including antibiotic resistance, cell division, stress resistance, toxin production, and virulence. PASTA kinases share a conserved three-part domain architecture, consisting of an extracellular PASTA domain, proposed to sense the peptidoglycan layer status, a single transmembrane helix, and an intracellular Ser/Thr kinase domain. The crystal structures of the kinase domain from two homologous PASTA kinases reveal a characteristic two-lobed structure typical of eukaryotic protein kinases with a centrally located, but unresolved, activation loop that becomes phosphorylated and regulates downstream signaling pathways.

Isolation and Characterization of vΔI3 Confirm that Vaccinia Virus SSB Plays an Essential Role in Viral Replication.

Vaccinia virus is unusual among DNA viruses in replicating exclusively in the cytoplasm of infected cells. The single-stranded DNA (ssDNA) binding protein (SSB) I3 is among the replication machinery encoded by the 195-kb genome, although direct genetic analysis of I3 has been lacking. Herein, we describe a complementing cell line (CV1-I3) that fully supports the replication of a null virus (vΔI3) lacking the I3 open reading frame (ORF).

Molecular genetic and biochemical characterization of the vaccinia virus I3 protein, the replicative single-stranded DNA binding protein.

Vaccinia virus, the prototypic poxvirus, efficiently and faithfully replicates its ∼200-kb DNA genome within the cytoplasm of infected cells. This intracellular localization dictates that vaccinia virus encodes most, if not all, of its own DNA replication machinery. Included in the repertoire of viral replication proteins is the I3 protein, which binds to single-stranded DNA (ssDNA) with great specificity and stability and has been presumed to be the replicative ssDNA binding protein (SSB).