Construction and characterization of DNA libraries from cultured phages and environmental viromes.

Despite many efforts to understand and leverage the functional potential of environmental viromes, most bacteriophage genes are largely uncharacterized. To explore novel biology from uncultivated microbes like phages, metagenomics has emerged as a powerful tool to directly mine new genes without the need to culture the diverse microbiota and the viruses within. When a pure computational approach cannot infer gene function, it may be necessary to create a DNA library from environmental genomic DNA, followed by the screening of that library for a particular function.

Rapid de novo evolution of lysis genes in single-stranded RNA phages.

Leviviruses are bacteriophages with small single-stranded RNA genomes consisting of 3-4 genes, one of which (sgl) encodes a protein that induces the host to undergo autolysis and liberate progeny virions. Recent meta-transcriptomic studies have uncovered thousands of leviviral genomes, but most of these lack an annotated sgl, mainly due to the small size, lack of sequence similarity, and embedded nature of these genes. Here, we identify sgl genes in 244 leviviral genomes and functionally characterize them in Escherichia coli.

Phage-Antibiotic Synergy Is Driven by a Unique Combination of Antibacterial Mechanism of Action and Stoichiometry.

The continued rise in antibiotic resistance is precipitating a medical crisis. Bacteriophage (phage) has been hailed as one possible therapeutic option to augment the efficacy of antibiotics. However, only a few studies have addressed the synergistic relationship between phage and antibiotics.

Complete Genome Sequence of Klebsiella pneumoniae Myophage Mulock.

is an opportunistic pathogen associated with hospital-acquired infections. This report describes the complete genome of the myophage Mulock, which appears to be a temperate myophage distantly related to other myophages in morphogenesis genes and is partially syntenic with the canonical phage lambda in genes encoding lambda-like functions.

Complete Genome Sequence of Escherichia coli Myophage Minorna.

The Gram-negative bacterium causes many diseases, and antibiotic resistance has become a problem for their treatment. Bacteriophages may present a viable treatment alternative. Here, the complete genome sequence of -infecting myophage Minorna is presented.

A viral protein antibiotic inhibits lipid II flippase activity.

For bacteriophage infections, the cell walls of bacteria, consisting of a single highly polymeric molecule of peptidoglycan (PG), pose a major problem for the release of progeny virions. Phage lysis proteins that overcome this barrier can point the way to new antibacterial strategies , especially small lytic single-stranded DNA (the microviruses) and RNA phages (the leviviruses) that effect host lysis using a single non-enzymatic protein . Previously, the A protein of levivirus Qβ and the E protein of the microvirus ϕX174 were shown to be 'protein antibiotics' that inhibit the MurA and MraY steps of the PG synthesis pathway .