Molecular Phylogeny of φ29-Like Phages and Their Evolutionary Relatedness to Other Protein-Primed Replicating Phages and Other Phages Hosted by Gram-Positive Bacteria

The φ29-like phage genus of Podoviridae family contains phages B103, BS32, GA-1, M2, Nf, φ15, φ29, and PZA that all infect Bacillus subtilis. They have very similar morphology and their genomes consist of linear double-stranded DNA of approximately 20 kb. The nucleotide sequences of individual genomes or their parts determined thus far show that these phages evolved from a common ancestor. A terminal protein (TP) that is covalently bound to the DNA 5′-end primes DNA replication of these phages. The same mechanism of DNA replication is used by the Cp-1 related phages (also members of the Podoviridae family) and by the phage PRD1 (member of the Tectoviridae family). Based on the complete or partial genomic sequence data of these phages it was possible to analyze the evolutionary relationship within the φ29-like phage genus as well as to other protein-primed replicating phages. Noncoding regions containing origins of replication were used in the analysis, as well as amino acid sequences of DNA polymerases, and with the φ29-like phages also amino acid sequences of the terminal proteins and of the gene 17 protein product, an accessory component of bacteriophage DNA replicating machinery. Included in the analysis are also results of a comparison of these phage DNAs with the prophages present in the Bacillus subtilis genome. Based on this complex analysis we define and describe in more detail the evolutionary branches of φ29-like phages, one branch consisting of phages BS32, φ15, φ29, and PZA, the second branch composed of phages B103, M2, and Nf, and the third branch having phage GA-1 as its sole member. In addition, amino acid sequences of holins, proteins involved in phage lysis were used to extend the evolutionary study to other phages infecting Gram-positive bacteria. The analysis based on the amino acid sequences of holins showed several weak points in present bacteriophage classification. Received: 14 April 1998 / Accepted: 31 July 1998     

寡氧单胞菌中CRISPR位点的分析

对寡氧单胞菌基因组中的CRISPR位点进行生物信息学分析。CRISPRdb数据库中公布的和NCBI上下载的共26株寡氧单胞菌的基因组序列,分析其CRISPR位点的分布情况、重复序列、间隔序列以及间隔序列和噬菌体序列数量之间的关系。共发现15个确定的CRISPR结构和132个可疑的CRISPR,不同菌株CRISPR结构中的重复序列具有较强的保守性。间隔序列的靶向基因主要来自细菌的基因组,说明寡氧单胞菌CRISPR的的进化与其他细菌基因有关。此外,间隔序列与前噬菌体数量之间的负相关关系,说明CRISPR能阻止噬菌体的入侵。寡氧单胞菌CRISPR位点的分析为进一步研究耐药性及基因组稳定性奠定了基础。     

Characterization of Vibrio cholerae bacteriophage K139 and use of a novel mini-transposon to identify a phage-encoded virulence factor

Temperate bacteriophage K139 was isolated from a Vibrio cholerae O139 isolate and characterized in this study. The phage genome consists of a 35 kbp, double-stranded, linear DNA molecule that circularizes and integrates into the chromosome in a site-specific manner. DNA sequences that cross-hybridize with K139 phage DNA are present in all strains of V. cholerae serogroup O1 of the classical biotype examined and in some strains of the El Tor biotype. Phage K139 produces plaques on El Tor O1 strains that do not carry the K139-related sequences but does not plaque on O139 strains that lack detectable phage DNA. This results suggests that O139 strains arose in part by horizontal gene transfer of the O139 antigen genes into an El Tor O1 strain that harboured a K139 prophage. Consistent with this interpretation, the morphology of K139 phage particles is identical to that displayed by the widely distributed family of O1 phages referred to as ‘kappa’. In order to test whether K139 phage is involved in lysogenic conversion of V. cholerae, we constructed a novel mini-transposon, Tn10d-bla, which was designed to produce β-lactamase fusions to phage-encoded, exported proteins. All Tn 10d-bla insertions obtained were closely linked to one location on the K139 phage genome. DNA sequence determination of the fusion joints revealed an open reading frame (ORF1), encoding a gene product of 137 amino acids with a typical N-terminal hydrophobic signal sequence. ORF1 was designated the glo gene (G protein-like O RF) because its amino acid sequence shows similarity to eukaryotic Gs(α) protein (34.5% identity over an 81-amino-acid overlap) and its C-terminus displays the consensus motif (CAAX) which is found in many small eukaryotic GTP-binding proteins. LD₅₀ assays with isogenic Glo⁺ and Glo^? K139 lysogens suggest that glo encodes a secreted virulence determinant of V. cholerae     

Characterization of filamentous bacteriophage PE226 infecting Ralstonia solanacearum strains

Aims: The aim of this study was to isolate and characterize new bacteriophages that infect a wide range of plant pathogenic Ralstonia solanacearum strains. Methods and Results: Fifteen bacteriophages were isolated from pepper, tomato and tobacco plant rhizospheres infected with R. solanacearum. A host specificity analysis of the isolated phages using nine strains of R. solanacearum indicated great phage diversity in a single soil. Two phages, PE226 and TM227, showed clear plaques on all nine bacterial hosts tested and were virtually identical in morphology and genome. PE226, an Inovirus, is a long, flexible, filamentous phage carrying a circular (+) sense single‐strand DNA genome of 5475 nucleotides. DNA sequences of PE226 exhibited nine open reading frames (ORF) that were not highly similar to those of other phages infecting R. solanacearum. The genome organization of PE226 was partially similar to that of p12J of Ralstonia pickettii. One ORF of PE226 showed identity to the zot gene encoding zonula occludens toxin of Vibrio cholera. Orf7 of PE226 was also present in the genome of R. solanacearum strain SL341. However, SL341, a highly virulent strain in tomato, was still sensitive to phage PE226. Conclusions: A new, flexible, filamentous phage PE226 infected wide range of R. solanacearum strains and carried unique circular single‐strand DNA genome with an ORF encoding Zot‐like protein. Significance and Impact of the Study: PE226 may be a new type of temperate phage, based on its lytic nature on a wide range of hosts and the presence of a zot homologue in a host bacterial genome.     

φ20, A Temperate Bacteriophage Isolated from Bacillus anthracis Exists as a Plasmidial Prophage

This study describes the isolation of temperate B. anthracis phages, from 4 out of 20 B. anthracis strains screened, by use of the inducing agents mitomycin C and UV light. Phage φ20 isolated from B. anthracis Sterne 34F₂ (pXO1⁺ pXO2⁻) was shown to have double-stranded DNA of size 48756 bp and a restriction site map showing nine sites for enzymes BamHI, BglII, and SstI is included. The φ20 genome was found to exist as a plasmidial prophage and the phage itself to have a polyhedral head of diameter 65 nm and tail 217 nm long and 15 nm wide.     

DNA analysis of temperate bacteriophage Aa/23 isolated from Actinobacillus actinomycetemcomitans

The DNA of the temperate bacteriophage Aaφ23 isolated from the oral bacterium Actinobacillus actinomycetemcomitans was examined structurally both in the phage head and in the prophage. The DNA in phage particles comprises 44 kb linear molecules with a terminal redundancy of 1.6 kb, which represent circular permutations. Thus, DNA is packaged into phage heads by the headful mechanism. The Aaφ23 prophage is integrated into the host chromosome. Received: 15 September 1997 / Accepted: 10 December 1997     

Site-specific gene integration in cultured silkworm cells mediated by φC31 integrase

The integrase from the Streptomyces bacteriophage φC31 carries out efficient recombination between an attP site in the phage genome and an attB site in the host chromosome. In the present study, we have used the φC31 integrase system to mediate site-specific recombination in the cultured silkworm cell line BmN4. A plasmid containing a cDNA encoding DsRed flanked by two φC31 attP sites was co-transfected together with a helper plasmid encoding the φC31 integrase into a cell line in which φC31 attB sites inserted between a baculovirus IE2 promoter, and a polyadenylation signal are present in one chromosome. Seven days after transfection, expression of DsRed was observed in transformed cells. Nucleotide sequence analysis demonstrated that the expected recombination between the attB and attP sites had been precisely carried out by the φC31 integrase. These results indicate that the φC31 site-specific recombination system should be widely applicable for efficient site-specific gene integration into silkworm chromosomes.     

Three <Emphasis Type="Italic">Bacillus anthracis</Emphasis> Bacteriophages from Topsoil

Three Bacillus anthracis bacteriophages from Iowa topsoil are characterized as to latent period, morphology, structural proteins, DNA size, and restriction endonuclease digestion. Electron micrographs indicate that the three isolates include two members of the Myoviridae and one smaller phage belonging to the Podoviridae. Phages Nk and DB resemble Myoviridae phage SP50 in morphology, but host range studies, protein, and DNA analysis indicate that both differ from SP50. Phage MH is very similar to phage φ29, but differs in terms of host range, structural protein, and DNA characteristics. Received: 21 June 2002 / Accepted: 13 September 2002     

A Filamentous Phage of Vibrio parahaemolyticus O3:K6 Isolated in Laos

A filamentous phage, ‘lvpf5’, of Vibrio parahaemolyticus O3:K6 strain LVP5 was isolated and characterized. The host range was not restricted to serotype O3:K6, but 7 of 99 V. parahaemolyticus strains with a variety of serotypes were susceptible to the phage. The phage was inactivated by heating at 80 C for 10 min and by treating with chloroform. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the phage exhibited a 3.8 kDa protein. The amino-terminal amino acid sequence of the coat protein was determined as AEGGAADPFEAIDLLGVATL. The phage genome consisted of a single-stranded DNA molecule. The activity of the phages was inhibited by anti-Na2 pili antibody.     

Prevalence and distribution of bacteriophage φAa DNA in strains of Actinobacillus actinomycetemcomitans

Abstract φAa is a bacteriophage that was originally isolated by induction of a lysogenic strain of the oral bacterium Actinobacillus actinomycetemcomitans . Since the discovery of phage φAa , additional phages infecting several other strains of A. actinomycetemcomitans have been identified. To determine the prevalence of φAa or φAa -related temperate phages in this species, a φAa -specific DNA probe was prepared to screen for homologous sequences among 42 strains of A. actinomycetemcomitans . Fourteen (33%) of the 42 strains examined contained DNA sequences that hybridized with the phage φAa probe. A bacteriophage designated φAa ₃₃₃₈₄ was isolated by induction from one of the strains (ATCC 33384) that contained a sequence that hybridized with the φAa probe. The φAa probe hybridized with the DNA extracted from bacteriophage φAa ₃₃₃₈₄. The distribution of the phage φAa sequence among A. actinomycetemcomitans serotypes was 5/13 (38%) of the serotype a strains, 0/16 (0%) of the serotype b strains, and 9/13 (69%) of the serotype c strains. The results of this investigation suggest that the target sequence prepared from the phage φAa genome is fairly common in the A. actinomycetemcomitans chromosome, and that the sequence is distributed among the A. actinomycetemcomitans serotypes in a seemingly nonrandom manner.     

A diversity of serine phage integrases mediate site-specific recombination in mammalian cells

This study evaluated the ability of five serine phage integrases, from phages A118, U153, Bxb1, φFC1, and φRV1, to mediate recombination in mammalian cells. Two types of recombination were investigated, including the ability of an integrase to mediate recombination between its own phage att sites in the context of a mammalian cell and the ability of an integrase to perform genomic integration pairing a phage att site with an endogenous mammalian sequence. We demonstrated that the A118 integrase mediated precise intra-molecular recombination of a plasmid containing its attB and attP sites at a frequency of ∼ 50% in human cells. The closely related U153 integrase also performed efficient recombination in human cells on a plasmid containing the attB and attP sites of A118. The integrases from phages Bxb1, φFC1, and φRV1 carried out such recombination at their attB and attP sites at frequencies ranging from 11 to 75%. Furthermore, the A118 integrase mediated recombination between its attP site on a plasmid and pseudo attB sites in the human genome, i.e. native sequences with partial identity to attB. Fifteen such A118 pseudo att sites were analyzed, and a consensus recognition site was identified. The other integrases did not mediate integration at genomic sequences at a frequency above background. These site-specific integrases represent valuable new tools for manipulating eukaryotic genomes.     

Phenogenetic Characterization of a Group of Giant φKZ-like Bacteriophages of Pseudomonas aeruginosa

A comparative study was made of a group ofPseudomonas aeruginosa virulent giant DNA bacteriophages similar to phage KZ in several genetic and phenotypic properties (particle size, particle morphology, genome size, appearance of negative colonies, high productivity, broad spectrum of lytic activity, ability to overcome the suppressing effect of plasmids, absence of several DNA restriction sites, capability of general transduction, pseudolysogeny). We have recently sequenced the phage KZ genome (288 334 bp) [J. Mol. Biol., 2002, vol. 317, pp. 1–19]. By DNA homology, the phages were assigned to three species (represented by phages KZ, Lin68, and EL, respectively) and two new genera (KZ and EL). Restriction enzyme analysis revealed the mosaic genome structure in four phages of the KZ species (KZ, Lin21, NN, and PTB80) and two phages of the EL species (EL and RU). Comparisons with respect to phage particle size, number of structural proteins, and the N-terminal sequences of the major capsid protein confirmed the phylogenetic relatedness of the phages belonging to the KZ genus. The origin and evolution of the KZ-like phages are discussed. Analysis of protein sequences encoded by the phage KZ genome made it possible to assume wide migration of the KZ-like phages (wandering phages) among various prokaryotes and possibly eukaryotes. Since the phage KZ genome codes for potentially toxic proteins, caution must be exercised in the employment of large bacteriophages in phage therapy.     

Sequence Analysis of a 25-kb Segment in the 17{degrees}-19{degrees} Region of the Bacillus subtilis Chromosome Containing ada Locus

As a part of the Bacillus subtilis genome sequencing project,we have determined a 25-kb sequence covering the 17°–19°region. This region contains 26 complete open reading frames(ORFs) including the alkA and adaA/B operon, which encode genesfor adaptive response to DNA alkylation. A homology search forthe newly identified 21 ORFs revealed that 4 of them exhibita significant similarity to known proteins, e.g., methicillin-resistantStaphylococcus aureus (MRSA) protein homolog, proteins involvedin chloramphenicol resistance, glucosamine synthase and an ABCtransporter protein. The remaining 17 ORFs did not show anysignificant sequence similarities to known gene products inthe database.     

DNA polymerase template switching at specific sites on the φ29 genome causes the in vivo accumulation of subgenomic φ29 DNA molecules

The accumulation of subgenomic phage φ29 DNA molecules with specific sizes was observed after prolonged infection times with delayed lysis phage mutants. Whereas the majority of the molecules had a size of 4 kb, additional DNA species were observed with sizes of 8.2, 6.5, 2.3, 2 and 1 kb. Most of the molecules were shown to originate from the right end of the linear Bacillus subtilis phage φ29 genome. The nature of the 4, 2.3, 2 and 1 kb molecules was studied. The 2 kb molecules were shown to be single-stranded self-complementary strands forming hairpin structures. The other molecules consisted of palindromic linear double-stranded DNA molecules. Most probably, the subgenomic DNA molecules were formed when the moving phage replication fork from the right origin encountered a block that induces the DNA polymerase to switch template. Once formed, the subgenomic molecules are then amplified in vivo . Determination of the centres of symmetry of the 4 and 1 kb molecules revealed that both contained the almost 16 bp perfect dyad symmetry element (DSE): 5'-TGTTtCAC-GTGgAACA-3' being a likely candidate for a protein binding site. Database analysis showed that this sequence occurs four times in the φ29 genome. In addition, the almost identical sequence 5'-TgGTTTCAC-GTGGAAtCA-3' was found once. These five DSEs are all located in the right half of the φ29 genome, and the same sequences are also present in the linear DNA of related B. subtilis phages. Most interestingly, this sequence is also found in the spoOJ gene of the B. subtilis chromosome. Recently, it has been shown that the SpoOJ protein is associated in vivo with the same DSE. As the same subgenomic φ29 DNA molecules accumulate after infection of B. subtilis spoOJ deletion strains, it is likely that, in addition to and/or independently of SpoOJ, other protein(s) bind to DSE.     

Shiga toxins even when different are encoded at identical positions in the genomes of related temperate bacteriophages

The nucleotide sequence of an 11,142-bp region including the stx ₂ operon in the genome of the temperate bacteriophage 933W in the EDL933 strain of Escherichia coli O157 was determined and compared to the respective regions derived from other lambdoid bacteriophages. In phage 933W, a region of ORFs interlinked by overlapping start-stop codons (ATGA) was detected preceding the toxin gene. These ORFs show a high degree of sequence identity to genes of the nin region of phage λ. Immediately downstream of these nin genes we identified an ORF that may code for an antiterminator similar to the λ Q protein. It is concluded that toxin expression is directly associated with the initiation of cell lysis. Downstream of the stx ₂ operon we identified an ORF that is homologous to the holin gene S of bacteriophage PA-2. PCR primers were designed, which, based on a comparison of the phage sequences, appeared to be common to both stx ₁ - and stx ₂ -harbouring phages. However, only seven of the 22 STEC strains investigated from serogroups O157, O26, O103 and O111 yielded the expected PCR amplification product. The data reported here may be useful in developing new strategies for inhibiting the expression of Stx and for developing universal diagnostic primers for use in tracking the origin and evolution of Shiga toxins and the phages that carry them. Received: 24 February 1999 / Accepted: 7 September 1999     

Genome and proteome characterization of the psychrophilic <Emphasis Type="Italic">Flavobacterium</Emphasis> bacteriophage 11b

Virion DNA of bacteriophage 11b (Φ11b), which infects a psychrophilic Flavobacterium isolate from Arctic sea-ice, was determined to consist of 36,012 bp. With 30.6% its GC content corresponds to that of host-genus species and is the lowest of all phages of Gram-negative bacteria sequenced so far. Similarities of several of 65 predicted ORFs, genome organization and phylogeny suggest an affiliation to ‘mesophilic’ nonmarine siphoviruses, e.g. to bacteriophages SPP1 and HK97. Early genes presumably encode an essential recombination factor (ERF), a single strand binding (SSB) protein, an endonuclease, and a DNA methylase. The late gene segment is likely to contain a terminase, portal, minor head, protease and a major capsid gene. Five ORFs exhibited similarities to Bacteroidetes species and seem to reflect the host specificity of the phage. Among PAGE-separated virion proteins that were identified by MALDI-ToF mass spectrometry are the portal, the major capsid, and a putative conserved tail protein. The Φ11b genome is the first to be described of a cultivated virus infecting a psychrophilic host as well as a Bacteroidetes bacterium. Electronic Supplementary Material Supplementary material is available to authorised users in the online version of this article at .     

A phagemid shuttle vector based on filamentous phage φLf and theE. coli vector pOK12 for use inXanthomonas campestris

AnE. coli-Xanthomonas shuttle vector, p2GP (3.3 kb), was constructed by fusing pOK12 with a DNA fragment carrying gene II andori from filamentous phage φLf. p2GP retains the advantages afforded by pOK12 and can replicate in differentX. campestris pathovars. Superinfection ofX. c. pv.campestris cells harboring p2GP or its derivatives with φLf causes the release of ssDNA-containing recombinant phage particles which are sources of single-stranded template for sequencing the inserts.     

Structure and assembly of bacteriophage PRD1, an Escherichia coli virus with a membrane

This article describes the structure and assembly of bacteriophage PRD1, a lipid-containing virus able to infect Escherichia coli. This phage, with an approximate diameter of 65 nm, is composed of an outer protein shell surrounding a lipid-protein membrane which, in turn, encloses the nucleic acid. The phage genome consists of a single linear dsDNA molecule of about 15 kb that has a protein covalently linked to each of its 5′ ends. This protein is used as a primer in DNA replication. During assembly membrane proteins are inserted into the host cytoplasmic membrane while major capsid protein multimers are found in the cytoplasm. Capsid multimers, assisted by two nonstructural assembly factors, are capable of translocating the virus-specific membrane resulting in the formation of cytoplasmic empty particles. Subsequent DNA packaging leads to the formation of infectious virus.     

Isolation and characterization of a novel Enterococcus faecalis bacteriophage φEF24C as a therapeutic candidate

Vancomycin-resistant Enterococcus faecalis (VRE) has become a significant threat in nosocomial settings. Bacteriophage (phage) therapy is frequently proposed as a potential alternative therapy for infections caused by this bacterium. To search for candidate therapeutic phages against Enterococcus faecalis infections, 30 Enterococcus faecalis phages were isolated from the environment. One of these, virulent phage φEF24C, which has a broad host range, was selected for analysis. The plaque-forming ability of φEF24C was virtually unaffected by differences in the clinical host strains. Furthermore, the phage had a shorter latent period and a larger burst size than ordinary tailed phages, indicating that φEF24C has effective lytic activity against many Enterococcus faecalis strains, including VRE. Morphological and genomic analyses revealed that φEF24C is a large myovirus (classified as family Myoviridae morphotype A1) with a linear double-stranded DNA genome of c . 143 kbp. Analyses of the N-terminal amino acid sequences of the virion proteins, together with the morphology and the genome size, speculated that φEF24C is closely related to other myoviruses of Gram-positive bacteria that have been used experimentally or practically for therapy or prophylaxis. Considering these results, φEF24C may be a potential candidate therapeutic phage against Enterococcus faecalis infections.     

Primer protein of bacteriophage M2 exposes the RGD receptor site upon linking the first deoxynucleotide

Summary Using electroporation with the phage PRD1 genome, we set up a high-frequency DNA transfer system for a linear dsDNA molecule with 5-covalently linked terminal proteins. The transfer was saturated when more than 100 ng of PRD1 genome was used. Electroporation efficiency was about four orders of magnitude higher than that obtained with transfection. Removal of the terminal protein abolished plaque formation, which could not be rescued by supplying the terminal protein or phage DNA polymerase or both in trans.