Calcium ion-dependent entry of the membrane-containing bacteriophage PM2 into its Pseudoalteromonas host.
暂无分享,去创建一个
[1] M. Krupovic,et al. Virus evolution: how far does the double β-barrel viral lineage extend? , 2008, Nature Reviews Microbiology.
[2] D. Stuart,et al. Insights into virus evolution and membrane biogenesis from the structure of the marine lipid-containing bacteriophage PM2. , 2008, Molecular cell.
[3] M. Krupovic,et al. Identification and functional analysis of the Rz/Rz1‐like accessory lysis genes in the membrane‐containing bacteriophage PRD1 , 2008, Molecular microbiology.
[4] M. Krupovic,et al. Genetics for Pseudoalteromonas Provides Tools To Manipulate Marine Bacterial Virus PM2 , 2007, Journal of bacteriology.
[5] P. Tavares,et al. Pressure built by DNA packing inside virions: enough to drive DNA ejection in vitro, largely insufficient for delivery into the bacterial cytoplasm. , 2007, Journal of molecular biology.
[6] D. Bamford,et al. Transbilayer distribution of phospholipids in bacteriophage membranes. , 2007, Biochimica et biophysica acta.
[7] M. Krupovic,et al. Polymyxin B Induces Lysis of Marine Pseudoalteromonads , 2007, Antimicrobial Agents and Chemotherapy.
[8] M. Krupovic,et al. Putative prophages related to lytic tailless marine dsDNA phage PM2 are widespread in the genomes of aquatic bacteria , 2007, BMC Genomics.
[9] M. Krupovic,et al. A novel lysis system in PM2, a lipid‐containing marine double‐stranded DNA bacteriophage , 2007, Molecular microbiology.
[10] D. Bamford,et al. On-line monitoring of changes in host cell physiology during the one-step growth cycle of Bacillus phage Bam35. , 2007, Journal of microbiological methods.
[11] M. Krupovic,et al. Genome Characterization of Lipid-Containing Marine Bacteriophage PM2 by Transposon Insertion Mutagenesis , 2006, Journal of Virology.
[12] D. Bamford,et al. The Entry Mechanism of Membrane-Containing Phage Bam35 Infecting Bacillus thuringiensis , 2006, Journal of bacteriology.
[13] D. Dubnau,et al. The Ins and Outs of DNA Transfer in Bacteria , 2005, Science.
[14] D. Bamford,et al. In vitro DNA packaging of PRD1: a common mechanism for internal-membrane viruses. , 2005, Journal of molecular biology.
[15] Helen R. Saibil,et al. Structural Basis of Pore Formation by the Bacterial Toxin Pneumolysin , 2005, Cell.
[16] E. Bakienė,et al. Penetration of Enveloped Double-Stranded RNA Bacteriophages φ13 and φ6 into Pseudomonas syringae Cells , 2005, Journal of Virology.
[17] H. Kivelä,et al. Penetration of Membrane-Containing Double-Stranded-DNA Bacteriophage PM2 into Pseudoalteromonas Hosts , 2004, Journal of bacteriology.
[18] Sarah J Butcher,et al. The PM2 virion has a novel organization with an internal membrane and pentameric receptor binding spikes , 2004, Nature Structural &Molecular Biology.
[19] V. Nagaraja,et al. Requirement for calcium ions in mycobacteriophage I3 DNA injection and propagation , 1980, Archives of Microbiology.
[20] G. Brewer. Characterization of temperature-sensitive mutants of bacteriophage PM2: Membrane mutants , 1978, Molecular and General Genetics MGG.
[21] D. Bamford,et al. Transcription of Bacteriophage PM2 Involves Phage-Encoded Regulators of Heterologous Origin , 2003, Journal of bacteriology.
[22] H. Kivelä,et al. Bacteriophage PM2 Has a Protein Capsid Surrounding a Spherical Proteinaceous Lipid Core , 2002, Journal of Virology.
[23] D. Bamford,et al. The Small Viral Membrane-Associated Protein P32 Is Involved in Bacteriophage PRD1 DNA Entry , 2002, Journal of Virology.
[24] D. Bamford,et al. Common principles in viral entry. , 2002, Annual review of microbiology.
[25] G. Babcock. How oxygen is activated and reduced in respiration. , 1999, Proceedings of the National Academy of Sciences of the United States of America.
[26] H. Kivelä,et al. Purification and protein composition of PM2, the first lipid-containing bacterial virus to be isolated. , 1999, Virology.
[27] L. Paulin,et al. The complete genome sequence of PM2, the first lipid-containing bacterial virus To Be isolated. , 1999, Virology.
[28] D. Bamford,et al. Changes in host cell energetics in response to bacteriophage PRD1 DNA entry , 1997, Journal of bacteriology.
[29] D H Bamford,et al. Bacteriophage PRD1: a broad host range DSDNA tectivirus with an internal membrane. , 1995, Advances in virus research.
[30] G. Mukamolova,et al. On the relationship between bacterial cell integrity and respiratory chain activity: a fluorescence anisotropy study. , 1994, Archives of biochemistry and biophysics.
[31] H. Nikaido,et al. Molecular basis of bacterial outer membrane permeability. , 1985, Microbiological reviews.
[32] B. Labedan,et al. Host cell metabolic energy is not required for injection of bacteriophage T5 DNA , 1983, Journal of bacteriology.
[33] E. F. Landry,et al. Effects of calcium on the lytic cycle of Bacillus subtilis phage 41c. , 1980, The Journal of general virology.
[34] D. Bamford,et al. Electron microscopy of cells infected with nonsense mutants of bacteriophage phi 6. , 1980, Virology.
[35] K. Gopinathan,et al. Possible involvement of a calcium-stimulated ATP-hydrolyzing activity associated with mycobacteriophage I3 in the DNA injection process , 1980, Journal of virology.
[36] W. Hamilton,et al. Quantitative analysis of proton-linked transport systems. Glutamate transport in Staphylococcus aureus. , 1979, Biochemical Journal.
[37] B. Labedan,et al. Requirement for membrane potential in injection of phage T4 DNA. , 1979, Proceedings of the National Academy of Sciences of the United States of America.
[38] J. Blok,et al. Effect of calcium ions on the infection of Bacillus subtilis by bacteriophage SF 6. , 1979, The Journal of general virology.
[39] G. Brewer. Membrane-localized replication of bacteriophage PM2. , 1978, Virology.
[40] V. Braun,et al. Nature of the energy requirement for the irreversible adsorption of bacteriophages T1 and phi80 to Escherichia coli , 1976, Journal of bacteriology.
[41] K. Watanabe,et al. The requirement for calcium in infection with Lactobacillus phage. , 1972, Journal of General Virology.
[42] R. Camerini-Otero,et al. Structure and synthesis of a lipid-containing bacteriophage. XII. The fatty acids and lipid content of bacteriophage PM2. , 1972, Virology.
[43] R. Camerini-Otero,et al. Structure and synthesis of a lipid-containing bacteriophage. X. Improved techniques for the purification of bacteriophage PM2. , 1971, Virology.
[44] J. Vinograd,et al. A buoyant method for the determination of the superhelix density of closed circular DNA. , 1971, Journal of molecular biology.
[45] R. Espejo,et al. Properties and Characterization of the Host Bacterium of Bacteriophage PM2 , 1968, Journal of bacteriology.
[46] R. Espejo,et al. Properties of bacteriophage PM2: a lipid-containing bacterial virus. , 1968, Virology.
[47] R. Tucker. Effect of Metal Ions and Polyamines on the Development of Bacteriophage ϕR , 1963 .
[48] R. Tucker. EFFECT OF METAL IONS AND POLYAMINES ON THE DEVELOPMENT OF BACTERIOPHAGE PHI-R. , 1963, Journal of General Microbiology.