However, a recent study challenged this idea and proposed an alte

However, a recent study challenged this idea and proposed an alternative mechanism for α-MG toxicity resulting in growth arrest [56]. This explanation is based on the toxicity of α-MG phosphate, which accumulates in the cytoplasm. Nevertheless, whether growth arrest is caused by α-MG toxicity and/or competition with glucose, ppGpp accumulation due to α-MG

is dependent on SpoT, because it occurs in both wild-type and relA mutants [44]. Furthermore, ppGpp accumulation following phosphate exhaustion with selected ECOR strains resulted in similar differences to the ones observed for α-MG treatment (results not shown). As described for the spoT + and spoT variants of E. coli K12 [21], the nature of the spoT click here allele present in E. coli simultaneously influences the level of σS, stress resistance and nutritional capabilities of E. coli. The environmental influence on ppGpp regulation is affected by the same dichotomy already observed and discussed for RpoS [11], namely the fluctuating needs selleck of the cell in response to nutrient limitation and stress resistance. Indeed, the variation

in spoT resembles the polymorphisms in rpoS, which are, if anything, even more extensive [26, 39]. These new results suggest that one or more of the genes involved in ppGpp synthesis and degradation is subject to the same kind of selective pressures as is rpoS. In this respect, spoT and rpoS are both involved in SPANC balancing within a bacterium in response to changes in the immediate environment and hunger for nutrients. Conclusions Two of the cellular components that control the allocation of transcriptional resources are strain-specific, since ppGpp and σS levels are potentially non-uniform in E. coli under identical growth conditions. A significant complication in the systems biology of E. coli is that even the regulatory relationship between ppGpp and RpoS is non-uniform across the species. The data from K-12 studies suggests ppGpp should stimulate RpoS synthesis, but the level of RpoS is not equally stimulated by high ppGpp in all ECOR isolates. As shown in Figure 5, there appear to be three groups of strains based on ppGpp/RpoS relationships, and in only one of these there is a discernible proportionality

between ppGpp and RpoS concentrations. So not only is there likely to be variation in individual components, but also variation in the interaction of components of global networks. The new Dolutegravir results suggest that the genes involved in ppGpp synthesis and degradation are also subject to the same kind of selective pressures as is rpoS. This has major consequences for the universality of the pattern of expression of hundreds of genes controlled directly or indirectly (by competition) at the level of RNA polymerase. The species-wide variation in the cellular concentration of two global directors of gene expression has significant implications for systems biology, because these regulators control many metabolic genes as well as gene expression networks [5, 14].

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