Inducible bacteriophages of Actinobacillus actinomycetemcomitans

Doses of 0.1 to 1.0 g/ml of mitomycin C induced cell lysis of six of eight strains of Actinobacillus actinomycetemcomitans tested. Infectious phages were induced from ATCC strains 43717, 29524, 33384, and 43719; non-plaque-forming, possibly defective phages were induced from ATCC strains 29522 and 29523. No phages were detected in strain FDC 651 or ATCC strain 43718. No correlation between lysogeny and leukotoxin production or serotype of the strains could be established. Gel electrophoresis of phage DNAs indicated that the induced phages were of three types, based on size. By electron microscopy, the phages were found to belong to either morphotype A1 or morphotype B1; no other morphotypes were observed. Curing experiments led to the isolation of nonlysogenic derivatives of two strains, which supported plaque formation by the phages they originally carried. On the basis of our results, lysogeny appears to be widespread in A. actinomycetemcomitans.     

Autoplaque Formation in a Pseudomonas fluorescensStrain: Phagelike Particles and Transactivation of the Defective Phage

Natural bacteriophages ofPseudomonas fluorescensare rare and its temperate phages have not been described so far. In search for these phages, we have found that one of the P. fluorescensstrains forms numerous small transparent autoplaques of different size and shape, which contained material reproducible on the same strains. When centrifuged in a cesium chloride gradient, this material yielded a band in the density zone of about 1.3 g/cm³, where protein components or bacteriophages with a relatively low content of nucleic acid are usually located. In the band material, electron microscopy revealed phagelike particles with empty and mostly undamaged heads and tails carrying in their distal region a formation resembling contracted sheath. DNA isolated from the preparation consisted of two components: a distinct 54-kb fragment, and a diffuse fragment ranging in size from 20 to 9.5 kb. Treatment of the large DNA fragment with various endonucleases yielded 42.2- and 29.5-kb fragments (on average for different endonucleases); whereas the same treatment of the diffuse fragment yielded two- to three distinct fragments with the overall molecular sizes of 8.9 and 6.2 kb (for different nucleases). We have suggested that cells harbor two different genetic elements whose interaction results in the autoplaque appearance and in the formation of negative colonies after infection with the autoplaque material. One of the two elements displays properties of a defective prophage with disturbed DNA synthesis and assembly, whereas the other exhibits the properties of a transposable phage. After complementation or some other interaction between these elements (transactivation, prophage induction caused by repressor inactivation), a bulk of defective phage particles devoid of DNA and a few DNA-containing particles were produced. It remains unclear whether both DNA types are contained in the same or different particles. The phage (or a system of elements) referred to as PT3 is noninducible. The phage mutants forming larger negative colonies (NCs) were also revealed. Some of bacterial mutants resistant to PT3 infection produce the mutant phage with small and turbid NCs. PT3 produces no NCs on the lawns of other strains of the same or other pseudomonad species. This is the first case of describing a natural temperate bacteriophage in P. fluorescens.The two different elements of this phage may represent the same genome of the defective prophage divided into two portions within a bacterial chromosome, each of which is capable of packaging into the phage head.     

Salmonella Enteritidis bacteriophage candidates for phage therapy of poultry

Aims: Salmonella is a worldwide foodborne pathogen causing acute enteric infections in humans. In the recent years, the use of bacteriophages has been suggested as a possible tool to combat this zoonotic pathogen in poultry farms. This work aims to isolate and perform comparative studies of a group of phages active against a collection of specific Salmonella Enteritidis strains from Portugal and England. Also, suitable phage candidates for therapy of poultry will be selected. Methods and Results: The Salm. Enteritidis strains studied were shown to have a significantly high occurrence of defective (cryptic) prophages; however, no live phages were found in the strains. Bacteriophages isolated from different environments lysed all except one of the tested Salm. Enteritidis strains. The bacteriophages studied were divided into different groups according to their genetic homology, RFLP profiles and phenotypic features, and most of them showed no DNA homology with the bacterial hosts. The bacteriophage lytic efficacy proved to be highly dependent on the propagation host strain. Conclusions: Despite the evidences shown in this work that the Salm. Enteritidis strains used did not produce viable phages, we have confirmed that some phages, when grown on particular hosts, behaved as complexes of phages. This is most likely because of the presence of inactive phage‐related genomes (or their parts) in the bacterial strains which are capable of being reactivated or which can recombine with lytic phages. Furthermore, changes of the bacterial hosts used for maintenance of phages must be avoided as these can drastically modify the parameters of the phage preparations, including host range and lytic activity. Significance and Impact of the Study: This work shows that the optimal host and growth conditions must be carefully studied and selected for the production of each bacteriophage candidate for animal therapy.     

Physical mapping of LP51 and LP52 prophages of lysogenic strains of Bacillus licheniformis

Summary The physical maps of the LP51 and LP52 prophages in lysogenic strains of Bacillus licheniformis were constructed on the basis of data obtained by hybridization of phage DNA probes with Southern blots of restricted DNA of the lysogens. The data were compatible with the Campbell model for chromosomal integration; the attP site was mapped at 58.7–61.8 map units of the genomes of both phages. Identification of prophage-host DNA junction fragments indicated the presence of a unique attB site on the bacterial chromosome; the set of junction fragments in the strain B. licheniformis ATCC 10716 was identical to that of ATCC 11946, but different from ATCC 8187. Both the LP51 and LP52 phages used the same integration sites. Upon reinfection with either phage, the cured strains UM12 and UM18 (i.e. 10716 and 11946 cured of LP52 or LP51, respectively) turned out to be integration deficient. In surface cultures the reinfected bacteria could be maintained in the lysogenic state without, however, integrating the phage genome; when these bacteria were passaged in submerged cultures, several modes of anomalous integration were observed, and the phage segregated into a variety of forms, discernible by virulence and plaque morphology. In liquid cultures of UM12(LP51) or UM12(LP52) lytic forms finally predominated, while most lysogenized UM18 were converted into defective lysogens which contained a defective prophage in a stably integrated form.     

A group of actinophages ofFaenia rectivirgula

One virulent phage from soil lysed all tested strains ofFaenia rectivirgula, whereas six others—three of them from lysogenic cultures—lysed only nonlysogenic strains. Restriction analysis showed that these six phages are closely related, although one of them is virulent and the others are temperate. Another member of this group is aStreptomyces erythraeus phage, which also lysed only the four nonlysogenic strains ofF. rectivirgula.     

Specialized Transducing Phages Derived from Phage P22 That Carry the proAB Region of the Host, SALMONELLA TYPHIMURIUM: Genetic Evidence for Their Structure and Mode of Transduction

Two independently isolated specialized transducing phages, P22 pro-1 and P22pro-3, have been studied. Lysates of P22pro-1 contain a majority of transducing phages which can go through the lytic cycle only in mixed infection; these defective phages transduce by lysogenization in mixed infection and by substitution in single infection. A few of the transducing phages in P22pro-1 lysates appear to be non-defective, being able to form plaques and to transduce by lysogenization in single infection. Transduction by P22pro-3 lysates is effected by non-defective transducing phages, which transduce by lysogenization; these lysates also contain a majority of defective phages which do not co-operate in mixed infection.

The P22 pro-1 genome is thought to contain an insertion of bacterial DNA longer than the terminal repetition present in P22 wild type, so that at maturation a population of differently defective phages is produced. The exact structure of the P22pro-3 genome is open to conjecture, but it seems clear that the insertion of bacterial DNA is smaller than that in P22pro-1. Both P22pro-1 and P22pro-3 are defective in integration at ataA under non-selective conditions, although both integrate on medium that lacks proline.

     

一株枯草芽孢杆菌原噬菌体Bsu-yong1的基因组分析

【目的】枯草芽孢杆菌（Bacillus subtilis）是在自然界中广泛存在的革兰氏阳性菌，其抗逆性极强，能抑制大多数有害菌的繁殖，是常用的产酶菌，用其生产的蛋白酶、淀粉酶占全球工业酶产量的50%。原噬菌体（prophage）整合在宿主基因组中，可为宿主提供基因和生物学功能，非常具有研究价值。以往，有关B. subtilis原噬菌体的报道主要集中于缺陷型原噬菌体（defective prophage），本研究对一株非缺陷型活性原噬菌体（active prophage）的基因组进行解析，以扩充对非缺陷型原噬菌体的认知。【方法】使用丝裂霉素C从枯草芽孢杆菌中诱导一株噬菌体，命名为Bacillus phage Bsu-yong1（简称Bsu-yong1）。对Bsu-yong1进行负染、透射电镜（transmission electron microscopy，TEM）观察，用Illumina MiSeq测定其基因组序列、综合运用生物信息学工具对其进行基因功能注释和系统进化分析。【结果】Bsu-yong1与PBSX类缺陷型原噬菌体在形态上相似，但Bsu-yong1具有完整的噬菌体基因组，这与缺陷型原噬菌体不同，后者在包装过程中不能正确包裹自身的基因组，而是随机包裹一段宿主染色体。Bsu-yong1基因组全长为43 590 bp，G+C含量为41%，含有62个开放阅读框（open reading frame，ORF），呈模块化分布。Bsu-yong1拥有基因编码T7SS效应器LXG多态性毒素（T7SS effector LXG polymorphic toxin）、ImmA/IrrE蛋白和SMI1/KNR4蛋白。前二者为细菌毒素（toxin），后者为抗毒素（antitoxin），toxin-antitoxin是细菌免疫系统重要成员，参与菌间竞争与环境适应。此前，尚未有编码LXG polymorphic toxin的基因在噬菌体中被发现和报道。在基于全基因组比对构建的蛋白谱进化树（proteomic tree）中，Bsu-yong1与噬菌体sv105、rho14、vB_BteM-A9Y聚集形成一个独立的进化支（clade），基因组比对显示它们基因组的复制与调控模块具有高度保守性，它们共享29个核心基因（core gene），均具有PBSX样形态特征。Bsu-yong1与其他噬菌体的进化距离较远。将Bsu-yong1与所有噬菌体进行比对，得到的成对序列比较（pairwise sequence comparison，PASC）最大值为46.72%，小于属边界值（70%）。【结论】vB_Bsu-yong1在有尾纲中代表一个新的未知的属；建议构建一个新的科（family），该科由Bsu-yong1与噬菌体sv105、rho14、vB_BteM-A9Y组成。vB_Bsu-yong携带免疫相关基因，它可能有利于宿主在菌间竞争中获胜和适应环境。本研究丰富了噬菌体基因数据库，拓展了对芽孢杆菌活性原噬菌体的认知。     

Listeria phage A511, a model for the contractile tail machineries of SPO1‐related bacteriophages

Recognition of the bacterial host and attachment to its surface are two critical steps in phage infection. Here we report the identification of Gp108 as the host receptor‐binding protein of the broad host‐range, virulent Listeria phage A511. The ligands for Gp108 were found to be N‐acetylglucosamine and rhamnose substituents of the wall teichoic acids of the bacterial cell wall. Transmission electron microscopy and immunogold‐labelling allowed us to create a model of the A511 baseplate in which Gp108 forms emanating short tail fibres. Data obtained for related phages, such as Staphylococcus phages ISP and Twort, demonstrate the evolutionary conservation of baseplate components and receptor‐binding proteins within the Spounavirinae subfamily, and contractile tail machineries in general. Our data reveal key elements in the infection process of large phages infecting Gram‐positive bacteria and generate insights into the complex adsorption process of phage A511 to its bacterial host.     

Phage‐selected lipopolysaccharide mutants of Pectobacterium atrosepticum exhibit different impacts on virulence

Aims: To positively select Pectobacterium atrosepticum (Pa) mutants with cell surface defects and to assess the impact of these mutations on phytopathogenesis. Methods and Results: Several phages were isolated from treated sewage effluent and were found to require bacterial lipopolysaccharide (LPS) for infection. Two strains with distinct mutations in LPS were obtained by transposon mutagenesis. Along with a third LPS mutant, these strains were characterized with respect to various virulence‐associated phenotypes, including growth rate, motility and exoenzyme production, demonstrating that LPS mutations are pleiotropic. Two of the strains were deficient in the synthesis of the O‐antigen portion of LPS, and both were less virulent than the wild type. A waaJ mutant, which has severe defects in LPS biosynthesis, was dramatically impaired in potato tuber rot assays. The infectivity of these novel phages on 32 additional strains of Pa was tested, showing that most Pa isolates were sensitive to the LPS‐dependent phages. Conclusions: Native LPS is crucial for optimal growth, survival and virulence of Pa in vivo, but simultaneously renders such strains susceptible to phage infection. Significance and Impact of the Study: This work demonstrates the power of phages to select and identify the virulence determinants on the bacterial surface, and as potential biocontrol agents for Pa infections.     

Efficacy of a Broad Host Range Lytic Bacteriophage Against <Emphasis Type="Italic">E. coli</Emphasis> Adhered to Urothelium

Persistent urinary tract infections (UTI) are often caused by E. coli adhered to urothelium. This type of cells is generally recognized as very tolerant to antibiotics which renders difficult the treatment of chronic UTI. This study investigates the use of lytic bacteriophages as alternative antimicrobial agents, particularly the interaction of phages with E. coli adhered to urothelium and specifically determines their efficiency against this type of cells. The bacterial adhesion to urothelium was performed varying the bacterial cell concentrations and the period and conditions (static, shaken) of adhesion. Three collection bacteriophages (T1, T4, and phiX174 like phages) were tested against clinical E. coli isolates and only one was selected for further infection experiments. Based on the lytic spectrum against clinical isolates and its ability to infect the highest number of antibiotic resistant strains, the T1-like bacteriophage was selected. This bacteriophage caused nearly a 45% reduction of the bacterial population after 2 h of treatment. This study provides evidence that bacteriophages are effective in controlling suspended and adhered cells and therefore can be a viable alternative to antibiotics to control urothelium- adhered bacteria.     

Isolation and partial characterization of normal and defective bacteriophages of gram-negative hydrogen bacteria

Widespread defective lysogeny was detected in Alcaligenes eutrophus by electron microscopic analysis of cultures. Mitomycin C treatment of the cultures resulted in the production of defective (inco-) particles. Polysheaths were produced both with and without induction.With the simultaneous isolation technique six phages were isolated for hydrogen-oxidizing strains of the new species Pseudomonas pseudoflava. The phages were able to replicate under autotrophic conditions and were found to have a very restricted host range. Electron microscopic analysis allowed classification into two structural groups. Group I contained phages with contractile tails; group II contained phages with flexible, noncontractile tails. All but one (gb) of the new phages were shown to be temperate by isolation of lysogens and induction with mitomycin C.Non-Standard Abbreviations OD optical density - SM-medium standard mineral medium - KS-medium Kaserer medium - NB nutrient broth - p.f.u. plaque forming unit - c.f.u. colony forming unit - e.o.p. efficiency of plating - Do-phage buffer Dopatka-phage buffer - PTA phosphotungstic acid     

Prevalence of genetically similar Flavobacterium columnare phages across aquaculture environments reveals a strong potential for pathogen control

Intensive aquaculture conditions expose fish to bacterial infections, leading to significant financial losses, extensive antibiotic use and risk of antibiotic resistance in target bacteria. Flavobacterium columnare causes columnaris disease in aquaculture worldwide. To develop a bacteriophage-based control of columnaris disease, we isolated and characterized 126 F. columnare strains and 63 phages against F. columnare from Finland and Sweden in 2017. Bacterial isolates were virulent on rainbow trout (Oncorhynchus mykiss) and fell into four previously described genetic groups A, C, E and G, with genetic groups C and E being the most virulent. Phage host range studied against a collection of 227 bacterial isolates (from 2013 to 2017) demonstrated modular infection patterns based on host genetic group. Phages infected contemporary and previously isolated bacterial hosts, but bacteria isolated most recently were generally resistant to previously isolated phages. Despite large differences in geographical origin, isolation year or host range of the phages, whole-genome sequencing of 56 phages showed high level of genetic similarity to previously isolated F. columnare phages (Ficleduovirus, Myoviridae). Altogether, this phage collection demonstrates a potential for use in phage therapy.     

Autoplaque formation in a Pseudomonas fluorescens strain: phage-like particles and transactivation of the defective phage

Natural bacteriophages of Pseudomonas fluorescens are rare and its temperate phages have not been described so far. In search for these phages, we have found that one of the P. fluorescens strains forms numerous small transparent autoplaques of different size and shape, which contained material reproducible on the same strains. When centrifuged in a cesium chloride gradient, this material yielded a band in the density zone of about 1.3 g/cm3, where protein components or bacteriophages with a relatively low content of nucleic acid are usually located. In the band material, electron microscopy revealed phagelike particles with empty and mostly undamaged heads and tails carrying in their distal region a formation resembling contracted sheath. DNA isolated from the preparation consisted of two components: a distinct 54-kb fragment, and a diffuse fragment ranging in size from 20 to 9.5 kb. Treatment of the large DNA fragment with various endonucleases yielded 42.2- and 29.5-kb fragments (on average for different endonucleases); whereas the same treatment of the diffuse fragment yielded two- to three distinct fragments with the overall molecular sizes of 8.9 and 6.2 kb (for different nucleases). We have suggested that cells harbor two different genetic elements whose interaction results in the autoplaque appearance and in the formation of negative colonies after infection with the autoplaque material. One of the two elements displays properties of a defective prophage with disturbed DNA synthesis and assembly, whereas the other exhibits the properties of a transposable phage. After complementation or some other interaction between these elements (transactivation, prophage induction caused by repressor inactivation), a bulk of defective phage particles devoid of DNA and a few DNA-containing particles were produced. It remains unclear whether both DNA types are contained in the same or different particles. The phage (or a system of elements) referred to as PT3 is noninducible. The phage mutants forming larger negative colonies (NCs) were also revealed. Some of bacterial mutants resistant to PT3 infection produce the mutant phage with small and turbid NCs. PT3 produces no NCs on the lawns of other strains of the same or other pseudomonade species. This is the first case of describing a natural temperate bacteriophage in P. fluorescens. The two different elements of this phage may represent the same genome of the defective prophage divided into two portions within a bacterial chromosome, each of which is capable of packaging into the phage head.     

Transduction of linked chromosomal genes between Pseudomonas aeruginosa strains during incubation in situ in a freshwater habitat

Both transduction of single chromosomal loci and cotransduction of closely linked loci were observed between lysogenic and nonlysogenic strains of Pseudomonas aeruginosa in a freshwater habitat. Transductants were recovered at frequencies of 10(-6) to 10(-5) transductants per CFU. Transductants of lysogenized strains were recovered 10- to 100-fold more frequently than were transductants of nonlysogenic parents. Lysogens are thus capable of introducing phages which mediate generalized transduction into the natural microbial community and serving as recipients of transduced DNA. It would appear that lysogeny has the potential of increasing the size and flexibility of the gene pool available to natural populations of bacteria. The ability to generate and select new genetic combinations through phage-mediated exchange can be significant in the face of a continually changing environment and may contribute to the apparent fitness of the lysogenic state in natural ecosystems.     

Expression of Pseudomonas aeruginosa transposable phages in Pseudomonas putida cells. I. The establishment of a lysogenic state and the effectiveness of lytic development

Expression of transposable phages (TP) of Pseudomonas aeruginosa in the cells of P. putida was studied. The high efficiency of phage lytic development was shown both as a consequence of zygotic induction after transfer of the RP4::TPc+ plasmid into nonlysogenic recipients, and as a result of heat induction of lysogens PpG1 (D3112cts15). The high phage yield (20-25 particles of D3112cts phage per one cell of P. putida) is an evidence for a high level of transposition in the cells of this bacterial species. Plasmids RP4::TP are transferred into cells of PpG1 and PAO1 with similar frequency. However, the efficiency of establishment of the lysogenic state is lower in PpG1. Transposable phages of P. aeruginosa can integrate into the chromosome of PpG1 producing stable inducible lysogens. The presence of RP4 in the P. putida cells is not necessary for expression of transposable phages. The transposable phage D3112cts15 can be used in experiments of interspecies transduction of plasmids and chromosomal genes.     

A mutant bacteriophage evolved to infect resistant bacteria gained a broader host range

Bacteriophages (phages) are the most abundant entities in nature, yet little is known about their capacity to acquire new hosts and invade new niches. By exploiting the Gram‐positive soil bacterium Bacillus subtilis (B. subtilis) and its lytic phage SPO1 as a model, we followed the coevolution of bacteria and phages. After infection, phage‐resistant bacteria were readily isolated. These bacteria were defective in production of glycosylated wall teichoic acid (WTA) polymers that served as SPO1 receptor. Subsequently, a SPO1 mutant phage that could infect the resistant bacteria evolved. The emerging phage contained mutations in two genes, encoding the baseplate and fibers required for host attachment. Remarkably, the mutant phage gained the capacity to infect non‐host Bacillus species that are not infected by the wild‐type phage. We provide evidence that the evolved phage lost its dependency on the species‐specific glycosylation pattern of WTA polymers. Instead, the mutant phage gained the capacity to directly adhere to the WTA backbone, conserved among different species, thereby crossing the species barrier.     

Transduction of linked chromosomal genes between Pseudomonas aeruginosa strains during incubation in situ in a freshwater habitat.

Both transduction of single chromosomal loci and cotransduction of closely linked loci were observed between lysogenic and nonlysogenic strains of Pseudomonas aeruginosa in a freshwater habitat. Transductants were recovered at frequencies of 10(-6) to 10(-5) transductants per CFU. Transductants of lysogenized strains were recovered 10- to 100-fold more frequently than were transductants of nonlysogenic parents. Lysogens are thus capable of introducing phages which mediate generalized transduction into the natural microbial community and serving as recipients of transduced DNA. It would appear that lysogeny has the potential of increasing the size and flexibility of the gene pool available to natural populations of bacteria. The ability to generate and select new genetic combinations through phage-mediated exchange can be significant in the face of a continually changing environment and may contribute to the apparent fitness of the lysogenic state in natural ecosystems.     

The role of c3 product and anti-immunity in zygotic induction of bacteriophage lambda

Summary A nonlysogenic cell has twenty fold higher (26% versus 1.3%) probability to survive phage infection than entry of the same genome via conjugation (prophage infection). When the entering genome bears a cIII^- mutation, this difference increases to one hundred fold (6% versus 0.06%). A lysogenic im^- cell harbouring a defective prophage able to synthetize anti-immunity (product of gene tof) has ten fold higher probability to survive prophage infection than phage infection (20% versus 2%). Here, cIII^- mutation does not affect the survival. When the cell is simultaneously infected with the phage and prophage, the decision of the phage whether to enter the lytic cycle (in im^- cells) or not (in nonlysogens) is always epistatic to that of the prophage.     

Role of lysogenizing phages in the spread of drug-resistance plasmids in a staphylococcal population

The frequency of the transduction of plasmids rms5, rms7, pT127, pC194, pS194 and pUB101 by phages belonging to serological group B (80, 52, 52A, 53, 85, phi 11, S2) in two systems was compared. In system 1 phages for transduction were obtained from plasmid-containing lysogenic donors in the process of induction with mitomycin C; in system 2 phages for transduction were obtained by their multiplication in plasmid-containing nonlysogenic donors. In system 1 the transduction of plasmids rms5, rms7, pT127, pS194 by phage 52A was found to occur with a greater (by 3-5 orders) frequency than in system 2 (the frequency of transduction was 10(-2) to 10(-4), and 10(-6) to 10(-8) respectively). A similar situation was observed with plasmids rms5 and rms7 and phage 52; plasmid pT127 and phage 53; but not observed with plasmids rms5 and rms7 and phages 80, phi 11 and S2; plasmids pC194 and pS194 and phage 53; plasmid pUB101 and phages 52A, 80 and phi 11; plasmids pC194, pS194 and pT127 and phage 85.     

Prevalence of Stx Phages in Environments of a Pig Farm and Lysogenic Infection of the Field <Emphasis Type="Italic">E. coli</Emphasis> O157 Isolates with a Recombinant Converting Phage

The prevalence and nature of Shiga toxin (Stx)-producing Escherichia coli (STEC) and Stx phage were investigated in 720 swine fecal samples randomly collected from a commercial breeding pig farm in China over a 1-year surveillance period. Eight STEC O157 (1.1%), 33 STEC non-O157 (4.6%), and two stx-negative O157 (0.3%) isolates were identified. Fecal filtrates were screened directly for Stx phages using E. coli K-12 derivative strains MC1061 as indicator, yielding 15 Stx1 and 57 Stx2 phages. One Stx1 and eight Stx2 phages were obtained following norfloxacin induction of the eight field STEC O157 isolates. All Stx1 phages had hexagonal heads with long tails, while Stx2 phages had three different morphologies. Notably, most of field STEC O157 isolates released more free phages and Stx toxin after induction with ciprofloxacin. Furthermore, upon infection with the recombinant phage ΦMin27(Δstx::cat), E. coli laboratory strains produced both lysogenic and lytic phage, whereas two of the eight O157 STEC isolates produced only lysogens. The lysogens from laboratory strains produced infectious particles similar to ΦMin27. Similarly, the lysogens from the STEC O157 isolates released Stx phage too, although free ΦMin27(Δstx::cat) particles were not detected. Collectively, our results reveal that breeding pig farms could be important reservoirs for Stx phages and that residual antibacterial agents may enhance the release of Stx phages and the expression of Stx.