A Viral Exposure Signature Defines Early Onset of Hepatocellular Carcinoma.

Hepatocellular carcinoma (HCC) is an aggressive malignancy with its global incidence and mortality rate continuing to rise, although early detection and surveillance are suboptimal. We performed serological profiling of the viral infection history in 899 individuals from an NCI-UMD case-control study using a synthetic human virome, VirScan. We developed a viral exposure signature and validated the results in a longitudinal cohort with 173 at-risk patients who had long-term follow-up for HCC development.

Complete Genome Sequence of Myophage Ec_Makalu_002, Which Infects Uropathogenic Escherichia coli.

We isolated phage Ec_Makalu_002, which infects uropathogenic strains of Here, we report its complete genome sequence, annotated features, and relatedness to other phages.

Phage Resistance in Multidrug-Resistant Klebsiella pneumoniae ST258 Evolves via Diverse Mutations That Culminate in Impaired Adsorption.

The evolution of phage resistance poses an inevitable threat to the efficacy of phage therapy. The strategic selection of phage combinations that impose high genetic barriers to resistance and/or high compensatory fitness costs may mitigate this threat. However, for such a strategy to be effective, the evolution of phage resistance must be sufficiently constrained to be consistent.

Molecular Basis of Phage Communication.

Recently members of Bacillus phages were found to utilize a small peptide (6 aa long) to communicate with their descendants, aiding in a complex decision-making process. Proteins involved in this remarkable viral communication phenomenon were further investigated at the structural level for better understanding in this issue of Molecular Cell (Gallego del Sol et al., 2019).

Suppressor Analysis of the Fusogenic Lambda Spanins.

The final step of lysis in phage λ infections of is mediated by the spanins Rz and Rz1. These proteins form a complex that bridges the cell envelope and that has been proposed to cause fusion of the inner and outer membranes. Accordingly, mutations that block spanin function are found within coiled-coil domains and the proline-rich region, motifs essential in other fusion systems.

Genetic Analysis of the Lambda Spanins Rz and Rz1: Identification of Functional Domains.

Coliphage lambda proteins Rz and Rz1 are the inner membrane and outer membrane subunits of the spanin complex-a heterotetramer that bridges the periplasm and is essential for the disruption of the outer membrane during phage lysis. Recent evidence suggests the spanin complex functions by fusing the inner and outer membrane. Here, we use a genetics approach to investigate and characterize determinants of spanin function.

Membrane fusion during phage lysis.

In general, phages cause lysis of the bacterial host to effect release of the progeny virions. Until recently, it was thought that degradation of the peptidoglycan (PG) was necessary and sufficient for osmotic bursting of the cell. Recently, we have shown that in Gram-negative hosts, phage lysis also requires the disruption of the outer membrane (OM).

Spanin function requires subunit homodimerization through intermolecular disulfide bonds.

The λ Rz and Rz1 proteins are the subunits of the spanin complex, required for the disruption of the outer membrane during host lysis. Rz, the inner membrane or i-spanin, has a largely alpha-helical periplasmic domain, whereas Rz1, the outer membrane or o-spanin, has a 25% proline content with no predicted secondary structure. We report that both Rz and Rz1 accumulate as homodimers covalently linked by intermolecular disulfide bonds involving all three Cys residues, two in Rz and one in Rz1.

The spanin complex is essential for lambda lysis.

Phage lysis is a ubiquitous biological process, the most frequent cytocidal event in the biosphere. Lysis of Gram-negative hosts has been shown to require holins and endolysins, which attack the cytoplasmic membrane and peptidoglycan, respectively. Recently, a third class of lysis proteins, the spanins, was identified.