Publication

Effects of growth phase and temperature onσbactivity within alisteria monocytogenespopulation: evidence for rsbv-independent activation ofσbat refrigeration temperatures

Utratna, Marta
Cosgrave, Eoin
Baustian, Claas
Ceredig, Rhodri H.
O’Byrne, Conor P.
Identifiers
http://hdl.handle.net/10379/14241
https://doi.org/10.13025/24946
Repository DOI
Publication Date
2014-01-01
Type
Article
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Citation
Utratna, Marta; Cosgrave, Eoin; Baustian, Claas; Ceredig, Rhodri H. O’Byrne, Conor P. (2014). Effects of growth phase and temperature onσbactivity within alisteria monocytogenespopulation: evidence for rsbv-independent activation ofσbat refrigeration temperatures. BioMed Research International ,
Abstract
The alternative sigma factor sigma(B) of Listeria monocytogenes is responsible for regulating the transcription of many of the genes necessary for adaptation to both food-related stresses and to conditions found within the gastrointestinal tract of the host. The present study sought to investigate the influence of growth phase and temperature on the activation of sigma(B) within populations of L. monocytogenes EGD-e wild-type, Delta sigB, and Delta rsbV throughout growth at both 4 degrees C and 37 degrees C, using a reporter fusion that couples expression of EGFP to the strongly sigma(B)-dependent promoter of lmo2230. A similar sigma(B) activation pattern within the population was observed in wt-egfp at both temperatures, with the highest induction of sigma(B) occurring in the early exponential phase of growth when the fluorescent population rapidly increased, eventually reaching the maximum in early stationary phase. Interestingly, induction of sigma(B) activity was heterogeneous, with only a proportion of the cells in the wt-egfp population being fluorescent above the background autofluorescence level. Moreover, significant RsbV-independent activation of sigma(B) was observed during growth at 4 degrees C. This result suggests that an alternative route to sigma(B) activation exists in the absence of RsbV, a finding that is not explained by the current model for sigma(B) regulation.
Funder
Publisher
Hindawi Limited
Publisher DOI
10.1155/2014/641647
Rights
Attribution-NonCommercial-NoDerivs 3.0 Ireland