Results 261 to 270 of about 27,115 (280)
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A Phage Typing System for Salmonellae: Salmonella senftenberg
Journal of Milk and Food Technology, 1976A system is described for phage typing of Salmonella senftenberg. The system was developed using a number of bacteriophages that were isolated from sewage.
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Reduced set of phages for typing salmonellae
Journal of Clinical Microbiology, 1983A set composed of 27 phages is described for differentiating Salmonella spp. representative of groups A, B, C1, C2, D1, D2, E1, E2, E3, E4, G1, K, and N. All of the 1,245 cultures used in this effort were typable and were differentiated on the basis of the 420 phage patterns observed. All results were reproducible.
George Markowsky, Melvin Gershman
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A Phage Typing System for Salmonella anatum
Avian Diseases, 1974SUMMARY A system is described for phage-typing Salmonella anatum. These serotypes are frequently recovered from avian, animal and human sources. With use of a number of bacteriophages isolated from sewage, 12 distinct phage types have been established thus far.
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In vitro packaging of mature phage DNA by Salmonella phage P22
Virology, 1984Mature, headful-sized DNA extracted from the Salmonella phages P22 and L, and P22/L-hybrid phages can be encapsulated in vitro by means of a packaging system for exogenous DNA. The probability of packaging reaches about 10(-3) per headful-sized molecule.
Horst Schmieger +2 more
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Salmonella Phages Examined in the Electron Microscope
2007Out of 177 surveyed bacteriophages, 161 (91%) are tailed and belong to the Myoviridae, Siphoviridae, and Podoviridae families (43, 55, and 59 viruses, respectively). Sixteen filamentous or isometric phages are members of the Inoviridae, Leviviridae, Microviridae, and Tectiviridae families (9%). Many tailed phages belong to established phage genera (P22,
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Variation in Vi-Phage II of Salmonella typhi [PDF]
Nature, 1952 THE recent description of phenotypic variation in bacteriophages by Luria1 and Bertani2 has prompted us to publish the results of experiments carried out in 1947 which show analogous features.
A. Felix, E. S. Anderson
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Salmonella Typhimurium Phage Typing for Pathogens
2007Phage typing provides a rapid, accurate, and cheap method of investigating Salmonella strains for epidemiological use. Salmonella strains within a particular serovar may be differentiated into a number of phage types by their pattern of susceptibility to lysis by a set of phages with different specificity. Characterization based on the pattern of phage
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Transduction with Phage P1 in Salmonella typhimurium
Nature, 1968Two types of mutants of Salmonella typhimurium LT-2 with increased recipient abilities were isolated by treatment with N-methyl-N′-nitro-N-nitrosoguanidine followed by the transfer of an R factor from Escherichia coli K-12 and its subsequent elimination with acriflavine1. One of them, which was obtained in a single-step selection, was named Rfer1 (fer =
Tsutomu Watanabe, Motoyuki Okada
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Phage-based capacitive biosensor for Salmonella detection
Talanta, 2018This article reports the detection of Salmonella spp. based on M13 bacteriophage in a capacitive flow injection system. Salmonella-specific M13 bacteriophage was immobilized on a polytyramine/gold surface using glutaraldehyde as a crosslinker. The M13 bacteriophage modified electrode can specifically bind to Salmonella spp. via the amino acid groups on
Proespichaya Kanatharana +6 more
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A phage-typing system for Salmonella newport
Canadian Journal of Microbiology, 1974A system is described for the phage typing of Salmonella newport. The system is based upon a number of bacteriophages that were isolated from local sewage plants.
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