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In order to construct a physical map of the bacteriophage fd genome, the doubly closed replicative form (RFI) DNA of phage fd was cleaved into unique fragments by four different restriction endonucleases (Hap, Hga, HinH and Hind) prepared from Haemophilus strains H. aphirophilus, H. gallinarum, H. influenzae H-I and H. influenzae Rd, respectively. As Hind cleaved RFI DNA at a single site, this site was used as a reference point for mapping. HinH cleaved RFI DNA at three sites, Hga at six sites and Hap at 13 sites, respectively. The 5′-termini of the fragments produced by either HinH or Hga were labelled with 32P in the polynucleotide kinase reaction. The labelled fragments were separated and further cleaved by other enzymes. The re-digestion products of partially digested fragments were also analysed. On the basis of these data and estimates of the size of each fragment, a cleavage map of the phage fd genome was constructed. 相似文献
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Structure and synthesis of a lipid-containing bacteriophage. Amphiphilic properties of protein IV of bacteriophage PM2 总被引:2,自引:0,他引:2
Interactions between lipids and the DNA-binding protein (protein IV) purified from bacteriophage PM2 were studied in vitro. The efficiency of incorporation of protein IV into single-walled liposomes was more than 90%. Protein IV embedded in liposomes interacted more strongly with PM2 DNA than protein IV alone. The DNA--protein-IV--liposome complex was relatively stable as observed by sedimentation behavior on a sucrose gradient. The interaction between DNA and the protein-IV--liposome was abolished by tryptic digestion, even though 40% of the protein remained in the vesicle. More than 70% of the amino acids of this embedded peptide segment were hydrophobic. Carboxypeptidase digestion of the protein-IV--liposome caused a release of 20% of the radioactivity of the vesicle without changing the DNA-binding ability of the complexes. Modification of the protein-IV--liposome with the chemical probe, 2,4-dinitrofluorobenzene, and analysis of the tryptic peptides released from the protein-IV--liposome demonstrated that the N-terminal basic amino acid cluster segment responsible for the DNA binding was located on the outer surface of the bilayer. These results support an earlier model in which protein IV anchors itself in the inner leaflet of the PM2 bilayer membrane, interacting with the DNA in the virion. 相似文献
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The nucleocapsid proteins of bacteriophage PM2 and the inner lamella of the lipid bilayer, containing most of the phosphatidlethanolamine residues, were selectively cross-linked in the presence of 0.1-0.5% glutaraldehyde, 5 mM dimethylsuberimidate, or 0.05% toluene 2,4-diisocyanate. The biological activity (p.f.u.) of PM2 modified by these reagents decreased 10(6)-fold in all cases. The spike and coat proteins were selectively cross-linked in the presence of 7.5 mM N,N'-p-phenylenedimaleimide. The biological activity of virus modified by this reagen was unaffected. The electron paramagnetic resonance spectra of fatty acid spin labels incorporated into native and chemically modified viral membranes were qualitatively similar but show quantitative differences. Fixation with glutaraldehyde increased the rigidity of the membrane while Triton X-100 induced a more flexible structure. There was no change in the electron paramagnetic resonance spectrum of virus treated with N,N'-p-phenylenedimaleimide, however. 相似文献
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Several physical and chemical parameters of bacteriophage PM2 have been measured. The sedimentation constant was determined to be s-20,w=293 S. The buoyant density in sucrose at 20 degrees C was 1.24 g cm+-3 and in CsCl at 25 degrees C was 1.29 g cm-3. The high-speed equilibrium centrifugation method of Yphantis (1964) was used to measure the molecular weight of PM2. The necessary auxiliary parameters were also determined. A value of 0.771 plus or minus 0.005 cm-3 g-1 for the apparent specific volume at constant chemical potential in 1 M sodiium chloride has been obtained by pycnometry; the viral concentration was determined using the absorption coefficient at 260 nm (4.60 plus or minus 0.10 cm-2 mg-1), which in turn was calculated from the phosphorous content of the virus (17.89 plus or minus 0.28 mu-g of P per mg dry weight dry weight of virus). The molecular weight of PM2 determined with these parameters is (44.1 plus or minus 1.2 x 10-6). From the phosphorous content of the virus, the percentage of phosphorous known to be in its DNA (Camerini-Otero and Franklin, 1972), and the molecular weight of the bacteriophage, we have calculated a molecular weight for PM2 DNA of 6.26 x 10-6, which confirms values determined using empirical relationships. 相似文献
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A novel lysis system in PM2, a lipid-containing marine double-stranded DNA bacteriophage 总被引:1,自引:0,他引:1
In this study we investigated the lysis system of the lipid-containing double-stranded DNA bacteriophage PM2 infecting Gram-negative marine Pseudoalteromonas species. We analysed wt and lysis-deficient phage-induced changes in the host physiology and ascribed functions to two PM2 gene products (gp) involved in lysis. We show that bacteriophage PM2 uses a novel system to disrupt the infected cell. The novelty is based on the following findings: (i) gp k is needed for the permeabilization of the cytoplasmic membrane and appears to play the role of a typical holin. However, its unique primary structure [53 aa, 1 transmembrane domain (TMD)] places it into a new class of holins. (ii) We have proposed that, unlike other bacteriophages studied, PM2 relies on lytic factors of the cellular origin for digestion of the peptidoglycan. (iii) gp l (51 aa, no TMDs) is needed for disruption of the outer membrane, which is highly rigidified by the divalent cations abundant in the marine environment. The gp l has no precedent in other phage lytic systems studied so far. However, the presence of open reading frame l-like genes in genomes of other bacterial viruses suggests that the same system might be used by other phages and is not unique to PM2. 相似文献
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Phospholipid metabolism in Pseudomonas BAL-31 infected with lipid-containing bacteriophage PM2. 下载免费PDF全文
Infection of Pseudomonas BAL-31 with the lipid-containing bacteriophage PM2 resulted in no detectable change in the rate of phosphatidylglycerol (PG) or phosphatidylethanolamine (PE) biosynthesis. An increase in the PG content of infected cultures was not seen until the cultures began to lyse, and this increase was in fact only a relative increase resulting from the extensive turnover of PE at the onset of culture lysis. Turnover studies revealed that the glycerol, phosphorus fatty acid, and ethanolamine moieties of PE turned over simultaneously at the time of lysis, and therefore made it unlikely that there was a PE to PG conversion during the latent period of the phage. The lipid found in the bacteriophage did not reflect a preferential selection for lipid synthesized before or after infection, but in fact reflected the composition of the host membrane at the time the phage were assembled. The use of a modified medium that allowed the cultivation of Pseudomonas BAL-31 as a prototroph and resulted in reliable lysis times of infected cultures led us to the conclusion that PM2 infection effects little change in host phospholipid metabolism, and that there is sufficient PG in the host cytoplasmic membrane to account for a full burst of phage. As a result of the reliable lysis times that we have achieved, we concluded that certain metabolic events, i.e., PE turnover, are lytic phenomena and must not be confused with events relevant to the biosynthesis and maturation of the phage. 相似文献
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Wallace Snipes James Cupp Jeffrey A Sands Alec Keith Alan Davis 《生物化学与生物物理学报:生物膜》1974,339(3):311-322
The bacteriophage PM2 requires extracellular Ca2+ at concentrations greater than 3 · 10−4 M for the production of viable virus, whereas the host cell Pseudomonas BAL-31 grows normally in medium containing 3 · 10−5 M Ca2+ (low calcium). Virus attachment occurs normally in low calcium, the infected cultures partially lyse, but no infectious virus particles are released. Sucrose gradient analysis shows that lysates made in low calcium contain no PM2-like particles. The addition of calcium very late in the infectious cycle completely restores virus production to cultures infected in low calcium, whereas removal of calcium after infection prevents virus production. Our experiments indicate that Ca2+ is essential for some process late in the lytic cycle, such as the final assembly of stable, infectious PM2 particles. 相似文献
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Krupovic M Vilen H Bamford JK Kivelä HM Aalto JM Savilahti H Bamford DH 《Journal of virology》2006,80(18):9270-9278
Bacteriophage PM2 presently is the only member of the Corticoviridae family. The virion consists of a protein-rich lipid vesicle, which is surrounded by an icosahedral protein capsid. The lipid vesicle encloses a supercoiled circular double-stranded DNA genome of 10,079 bp. PM2 belongs to the marine phage community and is known to infect two gram-negative Pseudoalteromonas species. In this study, we present a characterization of the PM2 genome made using the in vitro transposon insertion mutagenesis approach. Analysis of 101 insertion mutants yielded information on the essential and dispensable regions of the PM2 genome and led to the identification of several new genes. A number of lysis-deficient mutants as well as mutants displaying delayed- and/or incomplete-lysis phenotypes were identified. This enabled us to identify novel lysis-associated genes with no resemblance to those previously described from other bacteriophage systems. Nonessential genome regions are discussed in the context of PM2 genome evolution. 相似文献
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R M Franklin R Hinnen R Sch?fer N Tsukagoshi 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》1976,276(943):63-80
The simpler lipid-containing viruses (influenza, Semliki Forest, PM2) may have a phospholipid bilayer sandwiched between an outer shell of protein and an internal nucleocapsid possessing helical or icosahedral symmetry. Extensive physical and chemical studies have enabled us to form a more detailed picture of the structure of bacteriophage PM2 and controlled stepwise degradation of the virion has helped us to localize the four viral proteins. The surface protein (II) of PM2 is basic and interacts with the acidic phosphatidylglycerol of the bilayer to stabilize the membrane. The nucleocapsid protein (III) has proteolipid characteristics and may interact with the phospholipids in a hydrophobic fashion. The spikes are formed from protein I and the fourth protein (IV) is closely associated with the DNA. It is possible to reassemble the virus by reversing the degradation steps. Assembly has been especially useful in revealing the processes whereby the proteins and lipids interact to form the bilayer. Furthermore, results of in vivo studies of phospholipid synthesis and both in vivo and in vitro studies of viral protein synthesis have enabled us to form a reasonably complete picture of the biosynthesis of PM2. 相似文献
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Abrescia NG Grimes JM Kivelä HM Assenberg R Sutton GC Butcher SJ Bamford JK Bamford DH Stuart DI 《Molecular cell》2008,31(5):749-761
Recent, primarily structural observations indicate that related viruses, harboring no sequence similarity, infect hosts of different domains of life. One such clade of viruses, defined by common capsid architecture and coat protein fold, is the so-called PRD1-adenovirus lineage. Here we report the structure of the marine lipid-containing bacteriophage PM2 determined by crystallographic analyses of the entire approximately 45 MDa virion and of the outer coat proteins P1 and P2, revealing PM2 to be a primeval member of the PRD1-adenovirus lineage with an icosahedral shell and canonical double beta barrel major coat protein. The view of the lipid bilayer, richly decorated with membrane proteins, constitutes a rare visualization of an in vivo membrane. The viral membrane proteins P3 and P6 are organized into a lattice, suggesting a possible assembly pathway to produce the mature virus. 相似文献
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We describe the purification and properties of Dp-1, a bacteriophage isolated from Diplococcus pneumoniae. The phage was sensitive to the organic solvents deoxycholate and Sarkosyl, and its infectivity was reduced by treatment with phospholipase C. Electron microscopy indicated the presence of a double-layered coat around the phage particles. Purified phage preparations contained lipid amounting to about 8.5% of the dry weight of the phage, and thin-layer chromatography resolved the lipids into four components. The phage had a buoyant density in CsCl of 1.47 g/cm3, and a sedimentation constant in 0.1 M NaCl of 313S. Analysis in acrylamide gel electrophoresis indicated the presence of three major proteins. Dp-1 DNA shows a density of 1.681 g/cm3. Neutralizing antisera against the phage have a low potency (K less than 120/min). 相似文献
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The interaction between DNA and the structural protein IV of bacteriophage PM2 was studied by co-sedimentation, filter binding and electron microscopy. The co-sedimentation data and the sigmoid-shaped filter binding curve were interpreted in terms of co-operative binding. At a given DNA/protein input ratio, some DNA molecules were associated with a large amount of protein IV while others had no detectable protein bound to them. Electron microscopic examination of DNA-protein IV mixtures showed highly condensed DNA molecules alongside uncomplexed native DNA. Dissociation experiments revealed the presence of two types of complexes. Type I dissociated rapidly while type II had a long half-life. Dissociation of complexes obtained with increasing protein/DNA ratios suggested that the type I complex was a precursor of type II complex. Protein IV binds equally well to superhelical, relaxed or linear DNA as well as to single-stranded DNA. These observations lead to a model for the interaction and for the consequent alterations in the DNA structure. 相似文献
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The nucleocapsid of bacteriophage phi 6 is enveloped within a lipid-containing membrane. The membrane is composed of proteins P3, P6, P9, P10, and P13 and phospholipids. The relationship between membrane protein P9 and morphogenetic protein P12 was studied in the absence of phage infection. cDNA copies of genes 9 and 12 were expressed on plasmids in Pseudomonas syringae pv. phaseolicola. Immunoblotting demonstrated the presence of protein P9 in strains carrying both gene 9 and gene 12 but not in strains with gene 9 alone. In the absence of P12, P9 was found to be unstable. Simultaneous synthesis of proteins P9 and P12 led to the formation of a low-density P9 particle having a buoyant density similar to that of precursor structures composed of phospholipid and proteins isolated from phi 6-infected cells. These results are consistent with results of previous genetic experiments suggesting that P9 and P12 are necessary and sufficient for the formation of the phi 6 envelope. Extensions of P9 at the C terminus do not impair particle formation; however, N-terminal extensions or C-terminal deletions that extend into the hydrophobic region of P9 do impair particle formation. 相似文献
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Gregory J. Brewer 《Journal of cellular biochemistry》1976,5(1):73-79
The regulation of membrane formation in bacteriophage PM2 serves as a simple model for changes in membrane structure in eukaryotic cells. Prior to Pseudomonas host lysis, wild-type virions mature to an icosahedral morphology at the inner face of the cytoplasmic membrane. The proliminary charcterization of two temperature-sensitive mutants of PM2 is described. In cells infected at the restrictive temperature with ts 1, an abundance of “empty” virus-size membrane vesicles are seen. Synthesis of DNA is also reduced in ts 1 infected cells. The preponderance of vesicles is not sen in cells infected with wil-type virus or with ts 1 at the permissive temperature. The “empty” appearance of the viral membranes suggests that viral DNA is not encapsulated. The major viral capsid protein (MW 26,000) is located just out side the viral membrane and normallyl sediments with host and virus membranes; insted, large amounts of capsid protein can be precipitated from the supernatant with TCA. Compared to cells infected with wild type virus, cells infected with is 5 at th restrictive temperature produce inside the cell an aboundance of virus-soze membrane vesicles. Taken Together, These results with viral mutants suggest that formation of a viral membrane of the proper size does not require a DNA core around which to form, or an outer scaffolding of coat protein against which to form a spherical bilayer. 相似文献
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E M Gonikberg V M Andreev N V Lipatova 《Molekuliarnaia genetika, mikrobiologiia i virusologiia》1990,(8):25-29
The kinetics of bacteriophage inactivation in the medium that is optimal for its storage has been studied at temperatures from 4 to 55 degrees C. The plot of Arrhenius dependence of the constant of inactivation rate consists of the two linear parts with the energies of activation Ea = 25 kcal/mol for 4-37 degrees C and Ea = 91 kcal/mol for 37-55 degrees C. The DNA of inactivated bacteriophage remained mostly in superspiralized form and completely preserved its biological activity as tested by transfection in spheroplasts. The analysis of inactivation kinetics suggests ageing of virions cultivated at 4 degrees C. The addition of watersoluble antioxidant amoxipin did not change the inactivation kinetics. The addition of antioxidant ionol with twin-80 increased the inactivation that was paralleled by the bacteriophage DNA degradation. 相似文献