2020
DOI: 10.1111/1758-2229.12861
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Synergistic role of abiotic factors driving viable but non‐culturable Vibrio cholerae

Abstract: SummaryVibrio cholerae O1, a natural inhabitant of estuarine environments, is found in a dormant, viable but non‐culturable (VBNC) state during interepidemic periods. Although the individual roles of abiotic factors affecting VBNC formation have been extensively studied, their interplay in driving this phenomenon remains largely unaddressed. Here, we identified that major abiotic factors synergize with low nutrient conditions governing entry of cells into the VBNC state. Specifically, V. cholerae cells exposed… Show more

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Cited by 12 publications
(4 citation statements)
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“…Weather patterns and changes in the environment affected the spread of cholera in several ways. For instance, certain environmental abiotic variables such as the temperature, salinity and pH of aquatic ecosystems foster the proliferation and survival of V. cholerae, thus increasing the likelihood of cholera infections in humans [73,74]. Rain associated with changes in weather patterns can have significant effects on V. cholerae populations, as it increases the discharge of rivers into the ocean carrying terrestrial nutrients that enhance the growth and persistence of the bacterium [75,76].…”
Section: Role Of Climate Change In the Peruvian Epidemicmentioning
confidence: 99%
See 1 more Smart Citation
“…Weather patterns and changes in the environment affected the spread of cholera in several ways. For instance, certain environmental abiotic variables such as the temperature, salinity and pH of aquatic ecosystems foster the proliferation and survival of V. cholerae, thus increasing the likelihood of cholera infections in humans [73,74]. Rain associated with changes in weather patterns can have significant effects on V. cholerae populations, as it increases the discharge of rivers into the ocean carrying terrestrial nutrients that enhance the growth and persistence of the bacterium [75,76].…”
Section: Role Of Climate Change In the Peruvian Epidemicmentioning
confidence: 99%
“…For instance, certain environmental abiotic variables such as the temperature, salinity and pH of aquatic ecosystems foster the proliferation and survival of V. cholerae , thus increasing the likelihood of cholera infections in humans [73, 74]. Rain associated with changes in weather patterns can have significant effects on V.…”
Section: Introductionmentioning
confidence: 99%
“…Due to the presence of a vast diversity of VBNC bacterial species, regulatory strategies are suggested to be strain-specific. Several studies uncovered the involvement of different mechanisms in VBNC induction, including RelA promotion and ToxR reduction in V. cholera (23), RpoS, MarA, YgfA, RelE (24), VapC, and HipA upregulation, and VapB downregulation in E. coli (25), and ClpP accumulation in Legionella pneumophila (26). In stress conditions, Campylobacter jejuni encodes hightemperature response protein B, polyphosphate kinase (PPK), and GltD and GlnA, which encode the required proteins for glutamine and glutamate production (27).…”
Section: Vbnc State Induction Of Vbnc Statementioning
confidence: 99%
“…Cabe resaltar que la no detección de V. cholerae por métodos de cultivo convencionales no asegura la ausencia de este patógeno potencial, puesto que, aunque en condiciones ambientales como baja concentración de nutrientes, alta salinidad y bajas temperaturas se limita su proliferación en ecosistemas acuáticos, esta bacteria puede permanecer en un estado de latencia conocido como viable no cultivable (VBNC) en el cual se mantiene hasta que las condiciones sean favorables para su crecimiento (Jesudason et al, 2000;Lutz et al, 2013;Jayakumar et al, 2020;Kopprio et al, 2020).…”
Section: Acta Biológica Colombianaunclassified