Morphological Features of a Filamentous Phage of Vibrio cholerae O139 Bengal

A filamentous phage was isolated from carrier strain AI-1841 of Vibrio cholerae O139 Bengal and thus was termed fs phage. The phage was measured to be approximately 1 μm in length and 6 nm in width. One end of the phage was slightly tapered and had a fibrous appendage. The plaques developed on strain AI-4450 of V. cholerae O139 were small and turbid. The phage grew in strain AI-4450 and reached a size of 10⁸ to 10⁹ pfu/ml at 5 hr after infection without inducing any lysis of the host bacteria. The group of phages attached on rod-shaped materials like fimbriae of this bacteria, with their fibrous appendages at the pointed end, were often found in the phage-infected culture. The anti-fimbrial serum effectively inhibited the infection of fs phage to the host strain AI-4450. We thus concluded that the phage can be adsorbed on fimbriae with a fibrous appendage on the pointed end of the phage filament.     

Filamentous vibriophage fs2 encoding the rstC gene integrates into the same chromosomal region as cholera toxin X

The genome of the filamentous phage of Vibrio cholerae fs2 was found to contain rst C and rst B1 (truncated) genes downstream of ORF500. att -fs2-dir and att- fs2-rev sequences homologous to that of att -CTXφ were found between orf 500 and rst C of the fs2 genome. This prompted us to search for the integration site of fs2 in the genomes of V. cholerae O1 and O139. The genome of fs2 was found to integrate downstream of att RS of the CTXφ phage, which integrated into chromosome I of V. cholerae O1 and O139. When infected with fs2, a fimbriate strain of V. cholerae O1 appeared to reduce fimbrial production in an adult rabbit ileal loop assay.     

Filamentous vibriophage fs2 encoding the rstC gene integrates into the same chromosomal region as the CTX phage [corrected]

The genome of the filamentous phage of Vibrio cholerae fs2 was found to contain rstC and rstB1 (truncated) genes downstream of ORF500. att-fs2-dir and att-fs2-rev sequences homologous to that of att-CTXphi were found between orf500 and rstC of the fs2 genome. This prompted us to search for the integration site of fs2 in the genomes of V. cholerae O1 and O139. The genome of fs2 was found to integrate downstream of attRS of the CTXphi phage, which integrated into chromosome I of V. cholerae O1 and O139. When infected with fs2, a fimbriate strain of V. cholerae O1 appeared to reduce fimbrial production in an adult rabbit ileal loop assay.     

Correlation between a female sterile mutation and a set of follicle cell proteins in Drosophila melanogaster

Summary In order to correlate the synthesis of a previously described set of follicel cell (Fc) proteins with a known mutation that affects female fertility, three female sterile mutations, fs(1)384, fs(1)508 and fs(1)1501, mapping in the same region as the Fc locus (7C1-9), were analysed with respect to Fc synthesis. The fs(1)508 strain displayed a normal Fc protein pattern, while in fs(1)384 no Fc protein synthesis could be detected. The fs(1)1501 pattern of Fc polypeptide synthesis was totally different from that of any previously analysed strain, displaying a set of proteins that were much larger than the standard Fc variant form. Two of the female sterile mutations, fs(1)384 and fs(1)1501, were combined in rans with two wild-type strains displaying two different electrophoretic variant forms of the Fc proteins. The combinations were then analysed for Fc protein synthesis, using the fact that females heterozygous for two of the Fc variant forms display both parental forms. The results indicate that the fs(1)384 mutation is directly involved in the synthesis of the Fc proteins, as the trans heterozygotes only synthesize the Fc form derived from the wild-type parent. We also suggest that the large proteins synthesized by the fs(1)1501 mutant are a defective Fc variant form. The nature of the two mutations is also discussed.     

Ty1 Gag Enhances the Stability and Nuclear Export of Ty1 mRNA

Retrotransposon and retroviral RNA delivery to particle assembly sites is essential for their replication. mRNA and Gag from the Ty1 retrotransposon colocalize in cytoplasmic foci, which are required for transposition and may be the sites for virus‐like particle (VLP) assembly. To determine which Ty1 components are required to form mRNA/Gag foci, localization studies were performed in a Ty1‐less strain expressing galactose‐inducible Ty1 plasmids (pGTy1) containing mutations in GAG or POL. Ty1 mRNA/Gag foci remained unaltered in mutants defective in Ty1 protease (PR) or deleted for POL. However, Ty1 mRNA containing a frameshift mutation (Ty1fs) that prevents the synthesis of all proteins accumulated in the nucleus. Ty1fs RNA showed a decrease in stability that was mediated by the cytoplasmic exosome, nonsense‐mediated decay (NMD) and the processing body. Localization of Ty1fs RNA remained unchanged in an nmd2Δ mutant. When Gag and Ty1fs mRNA were expressed independently, Gag provided in trans increased Ty1fs RNA level and restored localization of Ty1fs RNA in cytoplasmic foci. Endogenously expressed Gag also localized to the nuclear periphery independent of RNA export. These results suggest that Gag is required for Ty1 mRNA stability, efficient nuclear export and localization into cytoplasmic foci.     

Characterization offs8.1, a major QTL influencing fruit shape in tomato

In two previous quantitative trait locus (QTL) mapping studies conducted inLycopersicon esculentum x L. pimpinellifolium BC₁ and BC₂ populations we had localized a major QTL for fruit shape,fs8.1, to a ca. 20 cM interval on the short arm of chromosome 8, flanked by markers TG176 and CT92. At this QTL the allele from the wild species reduces the length of fruit, giving round-shaped fruit. In order to define more precisely the location offs8.1, near-isogenic lines (NILs) segregating for the region of interest were developed. The results from substitution mapping show that no recombination occurred betweenfs8.1 and the marker CD40 in 322 meioses. The gene action forfs8.1 was determined in a BC₄F₃ population to be partial dominance. The main effect offs8.1 is exerted on fruit length while fruit diameter is not significantly affected. A highly significant correlation (r=0.89;P<0.01) was found between fruit shape and ovary shape indicating that thefs8.1 gene product acts early in ovary development (preanthesis). Implications for the evolution of fruit shape and the feasibility of map-based cloning of this QTL are discussed.     

诺卡氏菌烈性噬菌体vB_Ncarnea_KYD1的分离纯化与基因组分析

【背景】诺卡氏菌是一种广泛分布的好氧放线菌,可在人体内引起局部或播散性感染,尤其是在免疫功能低下的个体中。诺卡氏菌感染在临床上较难鉴定,而且不断有新型诺卡氏菌种被发现。不同类型、不同地域的诺卡氏菌具有流行差异和抗生素敏感性差异,阻碍了适当治疗方式的选择。利用病灶处的宿主菌分离得到噬菌体来控制诺卡氏菌感染的这种方法在近年来受到了各界的关注。【目的】尝试从环境中分离出能够用于临床治疗的针对诺卡氏菌的烈性噬菌体,并研究其基因组学特征。【方法】利用双层平板法分离得到目标噬菌体,观察其噬菌斑形态,并对噬菌体进行分离纯化,在透射电镜下鉴定其特征。提取噬菌体DNA进行全基因组测序与注释,并与数据库内已知噬菌体基因组进行比较,同时构建系统进化树以进行遗传进化分析。【结果】本文以肉色诺卡氏菌为宿主,从环境样本中分离出一株烈性噬菌体vB_Ncarnea_KYD1,在双层平板上可形成直径<2 mm的透亮均匀的噬菌斑。基因组分析表明,vB_Ncarnea_KYD1DNA为环状,大小为66 621 bp,共发现102个蛋白质编码区(coding sequence,CDS)及一个tRNA-Ser编码序列。透射电镜观察与系统进化树综合分析可以确定,vB_Ncarnea_KYD1为长尾噬菌体科的一个新属。其在进化过程中经历了复杂的基因重组过程。暂未发现毒力因子相关基因与抗性基因,具备实用价值。【结论】从环境水体中分离出一株烈性肉色诺卡氏菌噬菌体vB_Ncarnea_KYD1,通过电镜观察与基因组分析可知,此株噬菌体为长尾噬菌体,基因组中暂未发现不利于临床应用的相关基因,是一株相对安全的烈性诺卡氏菌噬菌体。研究结果丰富了国内噬菌体资源库,并为后续诺卡氏菌感染疾病的治疗提供支持。     

Characterization of a temperate actinophage,MPphiWR-1, capable of infectingMicromonospora purpurea ATCC 15835

Summary A temperate actinophage was isolated from soil using the gentamicin-producing microorganism,Micromonospora purpurea ATCC 15835 as host. The characterization of the phage represents the initial step in its development as a cloning vector. The phage isolated, MPphiWR-1, formed red- to purple-pigmented turbid plaques. Cells isolated from these plaques were resistant to superinfection with lytic mutants of MPphiWR-1. Southern blots of genomic DNA from a resistant culture showed that MPphiWR-1 integrated into the host genome. The phage was UV- or Mitomycin C-inducible. The integration, resistance to superinfection and inducibility indicated a lysogenic relationship with the host.Using MPphiE-RCPM, a lytic derivative, the phage host range was demonstrated to include members of three genera: one species each ofAmpullariella andCatellatospora, and 12 species ofMicromonospora. The phage belonged to Ackerman's B1 morphotype having an isometric head and a flexible noncontractile tail. The density of the phage was 1.525 g/cc. Restriction site mapping demonstrated that the phage DNA was 57.9 kb long and had cohesive ends. Using EDTA enrichment, viable mutants with deletions of at least 3.5 kb were isolated and mapped. Phage adsorption, sensitivities and plating efficiency were investigated. Non-liposome PEG-mediated transfection was demonstrated.     

Influence of the Chitosan Oligomer on the Phage Particles and Reproduction of Phage 1-97A in the Culture of Bacillus thuringiensis

The causes of bacteriophage 1-97A inactivation by the chitosan oligomer with a polymerization degree of 15 and the influence of the oligomer on the phage reproduction in the culture of Bacillus thuringiensissubsp. galleriae, strain 1-97, were studied. The study of the inactivation kinetics showed that, in 1 h, virtually all chitosan was bound to the phage particles, causing, as evidenced by electron microscopy, DNA release from the phage head, destruction of the phage particles, and agglutination of the phage particles or of their tails in the region of the basal plate. High-polymeric chitosan caused more pronounced destruction of the phage particles than the oligomer. It was established that chitosan prevented the production of complete phage particles. One of the mechanisms of such an influence may be the production in the presence of chitosan of phage particles devoid of DNA.     

Isolation and Characterization of the New Mosaic Filamentous Phage VFJ Φ of Vibrio cholerae

Filamentous phages have distinguished roles in conferring many pathogenicity and survival related features to Gram-negative bacteria including the medically important Vibrio cholerae, which carries factors such as cholera toxin on phages. A novel filamentous phage, designated VFJΦ, was isolated in this study from an ampicillin and kanamycin-resistant O139 serogroup V. cholerae strain ICDC-4470. The genome of VFJΦ is 8555 nucleotides long, including 12 predicted open reading frames (ORFs), which are organized in a modular structure. VFJΦ was found to be a mosaic of two groups of V. cholerae phages. A large part of the genome is highly similar to that of the fs2 phage, and the remaining 700 bp is homologous to VEJ and VCYΦ. This 700 bp region gave VFJΦ several characteristics that are not found in fs2 and other filamentous phages. In its native host ICDC-4470 and newly-infected strain N16961, VFJΦ was found to exist as a plasmid but did not integrate into the host chromosome. It showed a relatively wide host range but did not infect the classical biotype O1 V. cholerae strains. After infection, the host strains exhibited obvious inhibition of both growth and flagellum formation and had acquired a low level of ampicillin resistance and a high level of kanamycin resistance. The antibiotic resistances were not directly conferred to the hosts by phage-encoded genes and were not related to penicillinase. The discovery of VFJΦ updates our understanding of filamentous phages as well as the evolution and classification of V. cholerae filamentous phage, and the study provides new information on the interaction between phages and their host bacteria.     

Adsorption of temperate phages of Lactobacillus delbrueckii strains and phage resistance linked to their cell diversity

Aims: The aim of this work was to study the adsorption step of two new temperate bacteriophages (Cb1/204 and Cb1/342) of Lactobacillus delbrueckii and to isolate phage‐resistant derivatives with interesting technological properties. Methods and Results: The effect of divalent cations, pH, temperature and cell viability on adsorption step was analysed. The Ca²⁺ presence was necessary for the phage Cb1/342 but not for the phage Cb1/204. Both phages showed to be stable at pH values between 3 and 8. Their adsorption rates decreased considerably at pH 8 but remained high at acid pH values. The optimum temperatures for the adsorption step were between 30 and 40°C. For the phage Cb1/342, nonviable cells adsorbed a lower quantity of phage particles in comparison with the viable ones, a fact that could be linked to disorganization of phage receptor sites and/or to the physiological cellular state. The isolation of phage‐resistant derivatives with good technological properties from the sensitive strains and their relationship with the cell heterogeneity of the strains were also made. Conclusions: Characterization of the adsorption step for the first temperate Lact. delbrueckii phages isolated in Argentina was made, and phage‐resistant derivatives of their host strains were obtained. Significance and Impact of the Study: Some phage‐resistant derivatives isolated exhibited good technological properties with the prospective to be used at industrial level.     

Influence of chitosan derivatives on the development of phage infection in theBacillus thuringiensis culture

The influence of chitosan fragments with different degrees of polymerization and some chemical chitosan derivatives on the infectionof Bacillus thuringiensis by phage 1–97 A was studied. It was shown that chitosan inhibits phage infection and inactivates phage particles. The extent of inhibition of phage infection inversely depended on the degree of polymerization of chitosan fragments. On the contrary, the extent of inactivation of phage virulence was proportional to the degree of polymerization. Chitosan derivatives did not inhibit the growth of bacilli. Deaminated chitosan derivatives at a concentration of 100 μg/ml efficiently inhibited phage reproduction, exhibiting no correlation between the degree of deamination and antiviral activity. The anionic derivative chitosan sulfate andN-succinate-6-O-sulfate did not inactivate the phage, did not influence bacterial growth, and did not inhibit the process of viral infection.     

The flagellotropic bacteriophage YSD1 targets Salmonella Typhi with a Chi‐like protein tail fibre

The discovery of a Salmonella‐targeting phage from the waterways of the United Kingdom provided an opportunity to address the mechanism by which Chi‐like bacteriophage (phage) engages with bacterial flagellae. The long tail fibre seen on Chi‐like phages has been proposed to assist the phage particle in docking to a host cell flagellum, but the identity of the protein that generates this fibre was unknown. We present the results from genome sequencing of this phage, YSD1, confirming its close relationship to the original Chi phage and suggesting candidate proteins to form the tail structure. Immunogold labelling in electron micrographs revealed that YSD1_22 forms the main shaft of the tail tube, while YSD1_25 forms the distal part contributing to the tail spike complex. The long curling tail fibre is formed by the protein YSD1_29, and treatment of phage with the antibodies that bind YSD1_29 inhibits phage infection of Salmonella. The host range for YSD1 across Salmonella serovars is broad, but not comprehensive, being limited by antigenic features of the flagellin subunits that make up the Salmonella flagellum, with which YSD1_29 engages to initiate infection.     

Lack of surface receptors not restriction-modification system determines F4 phage resistance inStreptococcus bovis II/1

The resistance ofStreptococcus bovis strain II/1, the producer ofSbvI restriction endonuclease, to F4 phage infection was demonstrated by the double-agar-layer method. Despite the presence of restriction endonucleaseSbvI which can cleave F4 phage, DNA to numerous fragmentsin vitro, the evidence that adsorptio inhibition is the most important defence mechanism in phage resistance ofS. bovis II/1 strain was obtained by adhesion experimentsin vivo. Electron microscopy of phage-host mixtures showed many phage particles on the bacterial surface of phage-sensitiveS. bovis 47/3 control strain in comparision with no phage particles seen onS. bovis II/1 (phage-resistant) strain surface.     

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.     

Studies of fs(1)1621, a mutation producing ovarian tumors in Drosophila melanogaster

The ethyl methane sulfonate-induced mutation, fs(1)1621, resides at 11.7 on the genetic map and within segment 4F1-5A1 of the cytological map of the X chromosome. When homozygous, fs(1)1621 renders females semisterile but has no effect on their viability; nor does it affect the viability or fertility of hemizygous males. Heterozygous females are fertile and have cytologically normal ovaries. The ovaries of homozygous females first produce normal oocytes, which, if fertilized, can develop into adult males or females. After this period, ovarian chambers containing only pseudonurse cells are formed, and finally mutant germaria produce only tumors. These contain hundreds to thousands of cells that appear to be derived from germarial cystocytes, because they occasionally form clones of interconnected cells and also can differentiate into endopolyploid pseudonurse cells. Raising the temperature speeds the rate at which tumors form; lowering it increases the probability of pseudonurse cell differentiation. Df(1)C159 includes fs(1)1621. The pattern of ovarian chamber production is more temperature sensitive in hemizygous females than in homozygous ones. The morphology of hemizygous tumors and the number of dividing cells within them also differ from homozygotes. These observations support the hypothesis that fs(1)1621 is producing a product, that less is produced by one gene than by two, and that the product plays a role in the mitosis and cytokinesis of ovarian cystocytes.     

Isolation and characterization of a recombination defective-dependent bacteriophage ofRhodobacter sphaeroides

A new virulent bacteriophage, designated RZ1, was isolated from a local pond on the facultative phototrophic bacteriumRhodobacter sphaeroides ZZ101. Electron microscopic studies revealed that, in general morphology, phage RZ1 resembles the bacteriophage ofEscherichia coli. The host range of phage RZ1 is limited to some strains ofR. sphaeroides. The phage genome consists of double-stranded DNA of about 44 kb lacking cohesive ends and seems to present terminal redundancy and cyclic permutation. RZ1 phage may carry out a lytic cycle only in recombination-defective mutants ofR. sphaeroides. Nevertheless, a derivative of the RZ1 phage, termed RW1, able to grow in recombination-proficient strains ofR. sphaeroides, has also been obtained. In vitro restriction analysis of both RZ1 and RW1 phages shows the presence of a rearrangement in their DNA. Generalized transduction of Str^r and Rif^r chromosomal markers has not been detected with either RZ1 or RW1 phages.     

The phage P.E1 isolated from hospital sewage reduces the growth of Escherichia coli

This study involves partial characterisation of a lytic bacteriophage P.E₁ against a multi drug-resistant clinical isolate of Escherichia coli, isolated from hospital sewage supply. The phage P.E₁ has showed a narrow host range suitable for its use in phage therapy. Phage showed lytic activity up to 70°C and at alkaline conditions, but at higher acidic conditions its activity decreased. Latent period and burst size of P.E₁ estimated from single-step growth curve was 40 min and 185 plaque-forming units per cell, respectively. The phage P.E₁ reduced the growth of host bacteria during the initial 12?h of infection; however, the host bacteria developed resistance afterwards. During the 24-hour observation period, the bacteriophage could still reduce the growth of its host bacteria evident by lower optical density in the phage-treated samples compared with control. The phage genome was double-stranded DNA and larger than 12?kb in size. Further manipulations of genome and proteins may help to unveil the unique aspects of this phage, to use it in phage therapy against E. coli.     

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