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.     

Bacteriophage-resistance mechanisms examined by transfection of Lactococcus lactis subsp. lactis 4513-5 mediated by high voltage electroporation

Summary Phage adsorption tests and transfection by electroporation were carried out to decide whether phage-resistance in Lactococcus lactis subsp. lactis strain 4513-5 is based on intracellular or extracellular mechanisms. Using high voltage (12.5 kV/cm) electroporation, untreated phage DNA was introduced into phage-sensitive and phage-resistant cells. Since phages showed low adsorption frequencies on resistant bacteria, resistance is localized in the cell wall preventing phage DNA from entering the cell. This is the only mechanism responsible for the resistance of L. lactis subsp. lactis 4513-5 against its homologous phage P4513-K12 and non-homologous phages P05M-13 and P05M-47, but not against phage P530-7 and phage P530-12. In the case of the latter two phage strains, intracellular resistance mechanisms are involved and discussed.     

驯化噬菌体提高噬菌体对碳青霉烯类耐药肺炎克雷伯菌的杀菌能力

【目的】本研究旨在通过驯化提高噬菌体的裂解能力并降低其宿主菌耐受性产生的速度,从而提高对重要病原菌-碳青霉烯类耐药肺炎克雷伯菌(carbapenem-resistant Klebsiella pneumoniae, CRKp)的杀菌效果。【方法】以临床CRKp菌株Kp2092为宿主菌,利用双层琼脂平板法从污水中分离噬菌体并分析其裂解谱;对其中的广谱强裂解性噬菌体通过透射电镜观察其形态特征并进行全基因组测序;通过噬菌体-宿主连续培养进行噬菌体驯化,并比较驯化前后噬菌体生物学特性的差异。【结果】分离得到的9株肺炎克雷伯菌噬菌体中,噬菌体P55anc裂解能力强且裂解谱广,透射电镜观察发现其为短尾噬菌体。P55anc基因组全长40 301 bp,包含51个编码序列,其中27个具有已知功能,主要涉及核酸代谢、噬菌体结构蛋白、DNA包装和细胞裂解等。噬菌体P55anc经9 d的驯化后,得到3株驯化噬菌体。驯化后噬菌体杀菌能力增强,主要表现为细菌生长曲线显著下降、噬菌体暴发量增多、裂解谱扩大,且宿主菌对其产生抗性的概率显著降低。与此同时,驯化后的噬菌体在热处理、紫外暴露以及血清等环境下保持较好的稳定性。【结论】利用噬菌体-宿主连续培养的方法可对噬菌体进行驯化和筛选,驯化后的噬菌体杀菌效果更强,且在不同压力处理下的稳定性良好,而细菌产生噬菌体抗性的概率也降低。     

DNA relatedness among bacteriophages of the morphological group C3

Six bacteriophages with an elongated head and a short, noncontractile tail were compared by DNA-DNA hybridization, seroneutralization kinetics, mol% G+C and molecular weight of DNA, and host range. Three phage species could be identified. Phage species 1 containedEnterobacter sakazakii phage C2,Erwinia herbicola phages E3 and E16P, andSalmonella newport phage 7–11. These phages had a rather wide host range (4 to 13 bacterial species). DNA relatedness among species 1 phages was above 75% relative binding ratio (S1 nuclease method, 60°C) when labeled DNA from phage C2 was used, and above 41% when labeled DNA from phage E3 was used. Molecular weight of DNA was about 58×10⁶ (C2) to 67 ×10⁶ (E3). The mol% G+C of DNA was 43–45. Anti-C2 serum that neutralizes all phages of species 1 does not neutralize phages of the other two species. Species 2 contains only coliphage Esc-7-11, whose host range was only oneEscherichia coli strain out of 188 strains of Enterobacteriaceae studied; it was unrelated to the other two species by seroneutralization and DNA hybridization. DNA from phage Esc-7-11 had a base composition of 43 mol% G+C and a molecular weight of about 45×10⁶. Species 3 contains onlyProteus mirabilis phage 13/3a. Its host range was limited to swarmingProteus species. Species 3 was unrelated to the other two species by seroneutralization and DNA hybridization. DNA from phage 13/3a had a base composition of 35 mol% G+C and molecular weight of about 53×10⁶. It is proposed that phage species be defined as phage nucleic acid hybridization groups.     

Effect of Prophage W on the Propagation of Bacteriophages T2 and T4

Studies have been undertaken to determine whether the temperate phage ω present in Escherichia coli strain W is responsible for the inability of this strain to act as a host for T2 and T4. E. coli WS, cured of phage ω, was sensitive to T2 and T4. Lysogenation of E. coli C and WS with phage ω resulted in loss of ability to plate T2 and T4. However, E. coli K-12 lysogens still served as hosts for the T -even phage. Two of three WS lysogens studied resembled strain W at the biochemical level. They converted about 30% of infecting T2 deoxyribonucleic acid (DNA) to acid-soluble fragments and limited macromolecular synthesis to a few minutes after infection. The third lysogen did not degrade phage DNA, and nucleic acid and protein synthesis continued for some time, although no phage production occurred. It is concluded that phage ω plays a role in the restriction of virulent phage but that it is not the only factor involved. Since acid solubilization was not observed in all cases of phage ω-mediated restriction of T -even phage, a hypothesis for the restriction has been proposed which is based on an alteration in the cell envelope after lysogenation with phage ω.     

Isolation and Characterization of a Filamentous Phage,Vf33, Specific for Vibrio parahaemolyticus

Phage Vf33, a filamentous phage about 1,400 nm long and 7 nm wide, specific for Vibrio parahaemolyticus, was isolated and characterized. The buoyant density of Vf33 in CsCl was 1.292 g/cm³. As with other filamentous phages, the lytic activity of Vf33 was resistant to heating below 80 C and to treatment with diethylether, acetone or methanol but sensitive to chloroform. The nucleic acid of this phage is single-stranded circular DNA 8.4 kb in size. The viral genome was converted to a double-stranded replicative form in the host cell. Among the strains tested, only V. parahaemolyticus strains possessing K38 antigen was sensitive to the phage.     

Characterization of phage isolates from a phage-carrying culture of Leuconostoc oenos 58N

Summary During large-scale cultivation of Leuconostoc oenos strain 58N, growth inhibition was detected and attributed to the presence of the virulent phage P581. To determine if this phage originated from a temperate phage, L. oenos 58N was exposed to mitomycin C, and this treatment led indeed to release of phages (P58II). Further examination of the lytic potential of phages P581 and P58II revealed that these two phages were able to lyse the same strains of L. oenos with the exception of the original host strain, which was only sensitive to P581. Results of DNA/DNA hybridization experiments failed to show homology between the DNA of phage P58II and the chromosomal DNA of L. oenos 58N. A phage-free culture of L. oenos 58N could be obtained after repeated subculture. These results indicate that the original L. oenos 58N was in a special type of phage-carrier state. Phages P58I and P58II were compared on the basis of morphology, lytic spectra, restriction enzyme analysis, DNA homology, genome size and protein structure and proved to be identical. It is assumed that P58I arose from the phage-carrier culture of L. oenos 58N and became virulent by some mutational event.Offprint requests to: E. K. Arendt     

Characterization of CRISPR-Cas systems in the Ralstonia solanacearum species complex

Clustered regularly interspaced short palindromic repeats (CRISPRs) are composed of an array of short DNA repeat sequences separated by unique spacer sequences that are flanked by associated (Cas) genes. CRISPR-Cas systems are found in the genomes of several microbes and can act as an adaptive immune mechanism against invading foreign nucleic acids, such as phage genomes. Here, we studied the CRISPR-Cas systems in plant-pathogenic bacteria of the Ralstonia solanacearum species complex (RSSC). A CRISPR-Cas system was found in 31% of RSSC genomes present in public databases. Specifically, CRISPR-Cas types I-E and II-C were found, with I-E being the most common. The presence of the same CRISPR-Cas types in distinct Ralstonia phylotypes and species suggests the acquisition of the system by a common ancestor before Ralstonia species segregation. In addition, a Cas1 phylogeny (I-E type) showed a perfect geographical segregation of phylotypes, supporting an ancient acquisition. Ralstoniasolanacearum strains CFBP2957 and K60^T were challenged with a virulent phage, and the CRISPR arrays of bacteriophage-insensitive mutants (BIMs) were analysed. No new spacer acquisition was detected in the analysed BIMs. The functionality of the CRISPR-Cas interference step was also tested in R. solanacearum CFBP2957 using a spacer-protospacer adjacent motif (PAM) delivery system, and no resistance was observed against phage phiAP1. Our results show that the CRISPR-Cas system in R. solanacearum CFBP2957 is not its primary antiviral strategy.     

Expression of a cloned 987P adhesion-antigen fimbrial determinant in Escherichia coli K-12 strain HB101

The properties of three independent enterotoxigenic Escherichia coli isolates known to express 987P adhesion fimbriae in a manner subject to phase variation were examined. Phase variation could not be correlated with any major changes in the plasmid DNA content of these strains or with readily detectable changes in any other tested phenotypic markers. The 987P genetic determinant from one of these strains, E. coli 987, was cloned into the non-fimbriated E. coli K-12 strains HB101, and expressed, using the cosmid vector system. 987P fimbriae produced by cells harbouring these recombinant plasmids (987P+ phenotype) could not be distinguished from 987P fimbriae produced by strain 987. Expression of 987P fimbriae from some recombinant plasmids was unstable but none of the recombinants exhibited the phase variation phenotype displayed by the parental strain. One recombinant plasmid, pPM200, contained an insert of strain 987 DNA of ca. 33 kb. The HB101[pPM200] displayed a rather stable 987P+ phenotype, but this was not true for several hosts, since pPM200 acquired approx. 20-kb deletions following transformations of E. coli K-12 strains other than HB101. The deletions mapped to the same region of pPM200 irrespective of the host strain transformed. Cells harbouring the deleted plasmids did not express 987P fimbriae (987P- phenotype).     

Bacteriophages of Clostridium saccharoperbutylacetonicum

The HM-phages contained only deoxyribonucleic acid (DNA) as the nucleic acid moiety. The DNA was extracted from the phages by the phenol method. The content of guanine plus cytosine (%G + C) in the DNA was determined by paper chromatography and by thermal denaturation method. The values of HM 2 (group I), HM 3 (group II) and HM 7 (group III) were 35, 30 and 29, respectively.

The DNA was also isolated from the two host strains of Clostridium saccharoperbutylacetonicum by the method of Marmur and by Saito and Miura’s phenol extraction method. The %G + C of the DNA was 31. No unusual bases were detected in either the bacterial or phage DNA.     

Slime Production by Pseudomonas aeruginosa

Chemical properties and compositions of slimes produced by two Pseudomonas aeruginosa strains of different colonial types were investigated. The main component of the slime from strain IFO 3445 was found to be DNA, contaminated with small amounts of protein. On the other hand, the slime from a mucoid-type strain No. 24 was an alginate-like substance consisting of mannuronic and glucuronic acids, and contained traces of protein and nucleic acid. Slimes from twenty clinical isolates of P. aeruginosa were investigated for their chemical compositions. Slimes from eighteen strains consisted of DNA, while, two strains of a mucoid-type produced slimes composed of polyuronic acid.     

Electroporation of Bradyrhizobium japonicum

Summary Electroporation offers a fast, efficient and reproducible way to introduce DNA into bacteria. We have successfully used this technique to transform two commercially important strains of Bradyrhizobium japonicum, the nitrogen-fixing soybean symbiont. Initially, electroporation conditions were optimized using plasmid DNA which had been prepared from the same B. japonicum strain into which the{imDNA was to b}e transformed. Efficiencies of 10⁵-10⁶ transformants/g DNA were obtained for strains USDA 110 and 61A152 with ready-to-use frozen cells. Successful electroporation of B. japonicum with plasmid DNA prepared from Escherichia coli varied with the E. coli strain from which the plasmid was purified. The highest transformation efficiencies (10⁴ transformants/g DNA) were obtained using DNA prepared from a dcm ^– dam ^– strain of E. coli. This suggests that routine isolation of DNA from an E. coli strain incapable of DNA modification should help in increasing transformation efficiencies for other strains of bacteria where DNA restriction appears to be a significant obstacle to successful transformation. We have also monitored the rate of spontaneous mutation in electroporated cells and saw no significant difference in the frequency of streptomycin resistance for electroporated cells compared to control cells.     

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.     

Strain Engineering by Genome Mass Transfer: Efficient Chromosomal Trait Transfer Method Utilizing Donor Genomic DNA and Recipient Recombineering Hosts

Strain engineering, like cloning, is a fundamental technology used to confer new traits onto existing strains. While effective methods for trait development through gene modification within strains have been developed, methods for trait transfer between Escherichia coli strains to create complex strains are needed. We report herein the development of genome mass transfer (GMT), a broadly applicable new strain engineering methodology enabling rapid trait transfer from a donor strain into a recombineering gene-expressing recipient strain. GMT utilizes electroporation of donor chromosomal DNA into a recombineering recipient cell for precise trait transfer. GMT transfer of traits between E. coli strains can be used to rapidly assemble new strains incorporating combinations of marked gene knockouts, for example, utilizing the existing E. coli K-12 Keio gene knockout collection as source target genes. Optional use of random primed isothermal amplified DNA eliminates the need for initial DNA purification, affording high throughput application. This allows unprecedented simplicity and speed for rational design engineering of complex phenotypes in industrial strains.     

Acetobacter bacteriophage A-1

A bacteriophage ofAcetobacter suboxydans was isolated and found to correspond to type A phage according to Bradley's classification. The phage contains double stranded DNA. The length of the latency period and burst size could not be precisely determined because of apparent non-synchronous release of phage from single infective cycles. The host range was determined using 24 strains ofAcetobacter andGluconobacter species. Evidence for a probable occurence of host determined restriction and modification was obtained withAcetobacter suboxydans strain ATCC 621. The phage is designated A-1 and it is the first one to be reported forAcetobacter.Abbreviations pfu plaque forming units - PTA phosphotungstic acid - GC guanarine + cytosine     

A gene for DNA invertase and an invertible DNA in Escherichia coli K-12

An assay system for the pin gene function, which suppresses the vh2 mutation of Salmonella, was developed and used to show that most strains of Escherichia coli K-12 are Pin+, whereas all the strains of E. coli C examined are Pin-. An E. coli host strain was constructed and used for detection of DNA fragments carrying the E. coli K-12 pin gene cloned in the plasmid vector pBR322. Restriction analysis of the cloned fragments showed that the invertible DNA (designated P region) is adjacent to the pin gene and that its inversion is mediated by the pin gene product. The pin gene was found to be functionally homologous to the gin gene of Mu phage and the cin gene of P1 phage. The P region most probably resides within the cryptic prophage e14, and the Pin- phenotype is likely to be associated with the loss of e14.     

Behavior of Some Episomal Elements in a Recombination-Deficient Mutant of Escherichia coli

Conjugal transfer and autonomous replication of some episomes occurred normally in a recombination-deficient (Rec^–) mutant of Escherichia coli K-12. Transduction with phage Plbt of an R factor also occurred normally in this Rec^– mutant, but complete or abortive transduction with Plbt of chromosomal genes did not occur. In contrast, transduction of galactose genes by phage λ_dg occurred in the Rec^– bacteria as frequently as in the Rec⁺ strain. It was shown that phage Plbt does not grow at all on the Rec–bacteria. Recombination between two different R factors, two mutants of phage λ and two mutants of phage T4 occurred normally in the Rec^– bacteria, but did not give a Rec⁺ phenotype to the host bacteria. Colicinogenic factor I made the Rec^– host bacteria more resistant to ultraviolet light but the colicinogenic strain was still infertile in the crosses with the Hfr srains of E. coli K-12.     

Characterization of a new Bacillus megaterium bacteriophage,MJ-1, from tropical soil

A new Bacillus megaterium bacteriophage is characterized. It is a tailed phage with regular polyhedral head belonging to Bradley's group B. Head and tail dimensions are 56.4 and 300 nm, respectively. Lysis was restricted to strains of B. megaterium. No antigenic relationship with pumilus phage FP-1 or subtilis phage FS-1 was observed. The phage is sensitive to 60°C and moderately sensitive to chloroform. The nucleic acid is double-stranded linear DNA with a G-C mole % of 38.8 and a mol wt of (53±3)×10⁶.     

Specificity patterns of Agrobacterium tumefaciens phages

Summary Lysogeny was not detected in 10 strains of A. tumefaciens by plating techniques or ultra-violet induction. Fifteen phages were isolated from raw sewage against 13 cultures of A. tumefaciens and purified by single-plaque selections. No phage lysed all of the strains of A. tumefaciens tested; one phage lysed only a single strain; 2 other phages attacked 7 strains. Ten of the 15 phages lysed no more than 3 strains. Three host strains showed identical phage susceptibilities. No relationship was noted between susceptibility to phage and ability of a strain to incite crown galls.Thirteen phages lysed at least 1 of 4 strains of A. radiobacter, but none attacked single strains of A. rubi or A. pseudotsugae. Eleven phages lysed the one strain of A. rhizogenes used. None of the phages had identical host ranges with respect to all the Agrobacterium spp. tested. Similarly none of 5 selected phages attacked any one of 59 strains of bacteria from 12 different genera including 35 strains of rhizobia. Within the limits of this study the phages used were genus-specific.Published with approval of the Director, Wisconsin Agricultural Experiment Station, Madison, Wisconsin, U.S.A. 53706.