Interaction between Phage T4 Protein RIII and Host Ribosomal Protein S1 Inhibits Endoribonuclease RegB Activation.

Lytic viruses of bacteria (bacteriophages, phages) are intracellular parasites that take over hosts' biosynthetic processes for their propagation. Most of the knowledge on the host hijacking mechanisms has come from the studies of the lytic phage T4, which infects . The integrity of T4 development is achieved by strict control over the host and phage processes and by adjusting them to the changing infection conditions.

gene as a molecular marker for genome engineering of felixounoviruses.

Background: Bacterial viruses (bacteriophages or phages) have a lot of uncharacterized genes, which hinders the progress of their applied research. Functional characterization of these genes is often hampered by a lack of suitable methods for engineering of phage genomes.

Methods: Phages vB_EcoM_Alf5 (Alf5) and VB_EcoM_VpaE1 (VpaE1) were used as the model phages of Felixounovirus genus.

Low-Temperature Virus vB_EcoM_VR26 Shows Potential in Biocontrol of STEC O26:H11.

Shiga toxin-producing (STEC) O26:H11 is an emerging foodborne pathogen of growing concern. Since current strategies to control microbial contamination in foodstuffs do not guarantee the elimination of O26:H11, novel approaches are needed. Bacteriophages present an alternative to traditional biocontrol methods used in the food industry.

-Infecting Bacteriophage vB_PagS_AAS21: A Cold-Adapted Virus Representing a Novel Genus within the Family .

A novel cold-adapted siphovirus, vB_PagS_AAS21 (AAS21), was isolated in Lithuania using as the host for phage propagation. AAS21 has an isometric head (~85 nm in diameter) and a non-contractile flexible tail (~174 × 10 nm). With a genome size of 116,649 bp, bacteriophage AAS21 is the largest -infecting siphovirus sequenced to date.

Bacteriophage vB_PagS_Vid5: A Low-Temperature Siphovirus That Harbors a Cluster of Genes Involved in the Biosynthesis of Archaeosine.

A novel lowtemperature siphovirus, vB_PagS_Vid5 (Vid5), was isolated in Lithuania using isolate for the phage propagation. The 61,437 bp genome of Vid5 has a G⁻C content of 48.8% and contains 99 probable protein encoding genes and one gene for tRNA.

Molecular analysis of the low-temperature Escherichia coli phage vB_EcoS_NBD2.

A novel low-temperature Escherichia coli phage vB_EcoS_NBD2 was isolated in Lithuania from agricultural soil. With an optimum temperature for plating around 20 °C, vB_EcoS_NBD2 efficiently produced plaques on Escherichia coli NovaBlue (DE3) at a temperature range of 10-30 °C, yet failed to plate at temperatures above 35 °C. Phage vB_EcoS_NBD2 virions have a siphoviral morphology with an isometric head (65 nm in diameter), and a non-contractile flexible tail (170 nm).

Molecular Analysis of Arthrobacter Myovirus vB_ArtM-ArV1: We Blame It on the Tail.

This is the first report on a myophage that infects A novel virus, vB_ArtM-ArV1 (ArV1), was isolated from soil using sp. strain 68b for phage propagation. Transmission electron microscopy showed its resemblance to members of the family : ArV1 has an isometric head (∼74 nm in diameter) and a contractile, nonflexible tail (∼192 nm).

Incomplete LPS Core-Specific Felix01-Like Virus vB_EcoM_VpaE1.

Bacteriophages represent a valuable source for studying the mechanisms underlying virus-host interactions. A better understanding of the host-specificity of viruses at the molecular level can promote various phage applications, including bacterial diagnostics, antimicrobial therapeutics, and improve methods in molecular biology. In this study, we describe the isolation and characterization of a novel coliphage, vB_EcoM_VpaE1, which has different host specificity than its relatives.

Low-temperature bacterial viruses VR - a small but diverse group of E. coli phages.

The complete genome sequences of four low-temperature Escherichia coli-specific tevenviruses, vb_EcoM-VR5, vb_EcoM-VR20, vb_EcoM-VR25 and vb_EcoM-VR26, were determined. Genomic comparisons including recently described genomes of vb_EcoM-VR7 and JS98 as well as phage T4 allowed the identification of two genetic groups that were consistent with defined host-range phenotypes. Group A included the broad-host-range phages vb_EcoM-VR5 and JS98, while group B included vb_EcoM-VR7, vb_EcoM-VR20, vb_EcoM-VR25 and vb_EcoM-VR26, which all had somewhat limited host ranges.

Isolation and characterization of vB_ArS-ArV2 - first Arthrobacter sp. infecting bacteriophage with completely sequenced genome.

This is the first report on a complete genome sequence and biological characterization of the phage that infects Arthrobacter. A novel virus vB_ArS-ArV2 (ArV2) was isolated from soil using Arthrobacter sp. 68b strain for phage propagation.

A mutation in the gene for polynucleotide kinase of bacteriophage T4 K10 affects mRNA processing.

The bacteriophage T4 insertion-substitution (I/S) vector system has become one of the most important tools for the introduction of site-directed mutations into the T4 genome. In this study, we show that the I/S phage T4 K10 carries two point mutations within the gene for polynucleotide kinase pseT, resulting in amino acid substitutions G14D and R229H. The G14D mutation impairs 5'-kinase activity in vivo as well as in vitro and leads to diminished processing at secondary sites of several RegB-cleaved transcripts.

Klebsiella phage vB_KleM-RaK2 - a giant singleton virus of the family Myoviridae.

At 346 kbp in size, the genome of a jumbo bacteriophage vB_KleM-RaK2 (RaK2) is the largest Klebsiella infecting myovirus genome sequenced to date. In total, 272 out of 534 RaK2 ORFs lack detectable database homologues. Based on the similarity to biologically defined proteins and/or MS/MS analysis, 117 of RaK2 ORFs were given a functional annotation, including 28 RaK2 ORFs coding for structural proteins that have no reliable homologues to annotated structural proteins in other organisms.

Bacteriophage vB_EcoM_FV3: a new member of "rV5-like viruses".

A proposed new genus of the family Myoviridae, "rV5-like viruses", includes two lytic bacteriophages: Escherichia coli O157: H7-specific bacteriophage rV5 and Salmonella phage PVP-SE1. Here, we present basic properties and genomic characterization of a novel rV5-like phage, vB_EcoM_FV3, which infects E. coli K-12-derived laboratory strains and replicates at high temperature (up to 47 °C).

Genome of Klebsiella sp.-infecting bacteriophage vB_KleM_RaK2.

Despite the fact that multidrug-resistant Klebsiella sp. strains emerge rapidly (Xu J, et al., Adv.

Genome of low-temperature T4-related bacteriophage vB_EcoM-VR7.

The complete genome sequence of the T4-related low-temperature Escherichia coli bacteriophage vB_EcoM-VR7 was determined. The genome sequence is 169,285 bp long, with a G+C content of 40.3%.

Involvement of the Escherichia coli endoribonucleases G and E in the secondary processing of RegB-cleaved transcripts of bacteriophage T4.

Sequence-specific endoribonuclease RegB of bacteriophage T4 cleaves early phage mRNAs and facilitates the transition between early and subsequent phases of T4 gene expression. The great majority of RegB targets have been identified in the intergenic regions of T4 transcripts, frequently in the Shine-Dalgarno sequences. Here we show that localization of RegB targets is not restricted to intergenic regions of mRNA.

Middle promoters constitute the most abundant and diverse class of promoters in bacteriophage T4.

The temporally regulated transcription program of bacteriophage T4 relies upon the sequential utilization of three classes of promoters: early, middle and late. Here we show that middle promoters constitute perhaps the largest and the most diverse class of T4 promoters. In addition to 45 T4 middle promoters known to date, we mapped 13 new promoters, 10 of which deviate from the consensus MotA box, with some of them having no obvious match to it.

Transcription and RNA processing during expression of genes preceding DNA ligase gene 30 in T4-related bacteriophages.

Early gene expression in bacteriophage T4 is controlled primarily by the unique early promoters, while T4-encoded RegB endoribonuclease promotes degradation of many early messages contributing to the rapid shift of gene expression from the early to middle stages. The regulatory region for the genes clustered upstream of DNA ligase gene 30 of T4 was known to carry two strong early promoters and two putative RegB sites. Here, we present the comparative analysis of the regulatory events in this region of 16 T4-type bacteriophages.

The sequences and activities of RegB endoribonucleases of T4-related bacteriophages.

The RegB endoribonuclease encoded by bacteriophage T4 is a unique sequence-specific nuclease that cleaves in the middle of GGAG or, in a few cases, GGAU tetranucleotides, preferentially those found in the Shine-Dalgarno regions of early phage mRNAs. In this study, we examined the primary structures and functional properties of RegB ribonucleases encoded by T4-related bacteriophages. We show that all but one of 36 phages tested harbor the regB gene homologues and the similar signals for transcriptional and post-transcriptional autogenous regulation of regB expression.

Twelve new MotA-dependent middle promoters of bacteriophage T4: consensus sequence revised.

Bacteriophage T4 middle-mode transcription requires Escherichia coli RNA polymerase, phage-encoded transcriptional activator MotA and co-activator AsiA that form a complex at a middle promoter DNA. T4 middle promoters have been defined by a consensus sequence deduced from the list of 14 middle promoters identified in earlier studies. To date, 33 middle promoters have been mapped on the T4 genome.

Identification of two middle promoters upstream DNA ligase gene 30 of bacteriophage T4.

Bacteriophage T4 DNA ligase gene 30 lies in the cluster of prereplicative genes located counterclockwise from map units 149 to 121. Based on the early transcription studies this gene has been considered as a typical early gene of bacteriophage T4. In agreement with this assignment, two strong T4 early promoters, P(E )30.