Biomaterial Database

A phage typing system for Salmonella infantis. 1988

V G László, and K Csák, and E S Csórián

National Institute of Hygiene, Budapest, Hungary.

A phage typing method applying 9 type phages was elaborated to subdivide Salmonella infantis. Results are reported by the use of Farmer's mnemonic. Out of 4847 S. infantis strains, 4602 were of human and 245 of non-human origin. The strains were typable in 98.9%. Two phage types occurred more frequently than 20%, four phage types between 5 and 10%, seven phage types less than 5%, and twenty-eight phage types less than 1%. The strains originated from outbreaks in 28.7% and from sporadic cases in 71.3%. A total of 1320 strains examined for phage type was isolated from 4 field epidemics, 39 community outbreaks and 370 family infections. In the second version of the method two phages were substituted by two more effective ones. The phage typing method was suitable for epidemiological purposes. Inducing in vitro changes in phage types by lysogenization and plasmid acquisition, phage types 111, 113, 311, 313 and 343 changed to phage types 213, 243, 513 and 543 after lysogenization and phage types 311 and 543 to phage types 548, 565 and 885 due to plasmid acquisition.

UI	MeSH Term	Description	Entries
D008242	Lysogeny	The phenomenon by which a temperate phage incorporates itself into the DNA of a bacterial host, establishing a kind of symbiotic relation between PROPHAGE and bacterium which results in the perpetuation of the prophage in all the descendants of the bacterium. Upon induction (VIRUS ACTIVATION) by various agents, such as ultraviolet radiation, the phage is released, which then becomes virulent and lyses the bacterium.	Integration, Prophage,Prophage Integration,Integrations, Prophage,Prophage Integrations
D006801	Humans	Members of the species Homo sapiens.	Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D000818	Animals	Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA.	Animal,Metazoa,Animalia
D000900	Anti-Bacterial Agents	Substances that inhibit the growth or reproduction of BACTERIA.	Anti-Bacterial Agent,Anti-Bacterial Compound,Anti-Mycobacterial Agent,Antibacterial Agent,Antibiotics,Antimycobacterial Agent,Bacteriocidal Agent,Bacteriocide,Anti-Bacterial Compounds,Anti-Mycobacterial Agents,Antibacterial Agents,Antibiotic,Antimycobacterial Agents,Bacteriocidal Agents,Bacteriocides,Agent, Anti-Bacterial,Agent, Anti-Mycobacterial,Agent, Antibacterial,Agent, Antimycobacterial,Agent, Bacteriocidal,Agents, Anti-Bacterial,Agents, Anti-Mycobacterial,Agents, Antibacterial,Agents, Antimycobacterial,Agents, Bacteriocidal,Anti Bacterial Agent,Anti Bacterial Agents,Anti Bacterial Compound,Anti Bacterial Compounds,Anti Mycobacterial Agent,Anti Mycobacterial Agents,Compound, Anti-Bacterial,Compounds, Anti-Bacterial
D012475	Salmonella	A genus of gram-negative, facultatively anaerobic, rod-shaped bacteria that utilizes citrate as a sole carbon source. It is pathogenic for humans, causing enteric fevers, gastroenteritis, and bacteremia. Food poisoning is the most common clinical manifestation. Organisms within this genus are separated on the basis of antigenic characteristics, sugar fermentation patterns, and bacteriophage susceptibility.
D012483	Salmonella Phages	Viruses whose host is Salmonella. A frequently encountered Salmonella phage is BACTERIOPHAGE P22.	Salmonella Bacteriophages,Bacteriophage, Salmonella,Bacteriophages, Salmonella,Salmonella Bacteriophage,Salmonella Phage