Characterization of Enterococcus faecalis-infecting phages (enterophages) as markers of human fecal pollution in recreational waters.

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TítuloCharacterization of Enterococcus faecalis-infecting phages (enterophages) as markers of human fecal pollution in recreational waters.
Publication TypeJournal Article
Year of Publication2010
AutoresSantiago-Rodriguez, TM, Dávila, C, González, J, Bonilla, N, Marcos, P, Urdaneta, M, Cadete, M, Monteiro, S, Santos, R, Domingo, JSanto, Toranzos, GA
JournalWater Res
Volume44
Issue16
Pagination4716-25
Date Published2010 Sep
ISSN1879-2448
Palabras claveAnimals, Bacteriophages, Biological Markers, DNA, Viral, Enterococcus faecalis, Environmental Monitoring, Epidemiological Monitoring, feces, Geography, Humans, Microscopy, Electron, Transmission, Recreation, Temperature, Time Factors, Virus Diseases, Water Microbiology
Abstract

Enterophages are a novel group of phages that specifically infect Enterococcus faecalis and have been recently isolated from environmental water samples. Although enterophages have not been conclusively linked to human fecal pollution, we are currently characterizing enterophages to propose them as viral indicators and possible surrogates of enteric viruses in recreational waters. Little is known about the morphological or genetic diversity which will have an impact on their potential as markers of human fecal contamination. In the present study we are determining if enterophages can be grouped by their ability to replicate at different temperatures, and if different groups are present in the feces of different animals. As one of the main objectives is to determine if these phages can be used as indicators of the presence of enteric viruses, the survival rate under different conditions was also determined as was their prevalence in sewage and a large watershed. Coliphages were used as a means of comparison in the prevalence and survival studies. Results indicated that the isolates are mainly DNA viruses. Their morphology as well as their ability to form viral plaques at different temperatures indicates that several groups of enterophages are present in the environment. Coliphage and enterophage concentrations throughout the watershed were lower than those of thermotolerant coliforms and enterococci. Enterophage concentrations were lower than coliphages at all sampling points. Enterophages showed diverse inactivation rates and T(90) values across different incubation temperatures in both fresh and marine waters and sand. Further molecular characterization of enterophages may allow us to develop probes for the real-time detection of these alternative indicators of human fecal pollution.

DOI10.1016/j.watres.2010.07.078
Alternate JournalWater Res.
PubMed ID20723963