Sikora et al [24] recently demonstrated that mutants of Vibrio c

Sikora et al. [24] PP2 cell line recently demonstrated that mutants of Vibrio cholerae with compromised membrane phenotypes showed higher concentrations of radical oxygen species (ROS), induction of oxidative stress and changes

in iron physiology. It is possible that the observed oxidative stress response of the S. meliloti tolC mutant is mainly caused by a compromised cell envelope, although a higher metabolic rate and accumulation of proteins and metabolites which can not be secreted may also contribute to stress. Figure 4 Activity of enzymes combating oxidative stress. Enzymatic activities of (a) glutathione reductase as measured spectrophotometrically IACS-10759 molecular weight at 412 nm; (b) catalase and (c) superoxidase dismutase in native gel after staining. Total protein extracts were obtained after growing the wild-type strain Sm1021 and the tolC mutant strain SmLM030-2 for 20 hours in GMS medium. 20 μg of crude extract were loaded in each lane. Arrows indicate the position of bands obtained. In both Vibrio cholerae and E. coli, cell envelope perturbations resulted in induction of the extracytoplasmic stress factor RpoE, which directs MK 8931 nmr transcription

of genes involved in envelope maintenance [25]. We observed decreased expression of rpoE2, as well SMc01505 which is co-transcribed with rpoE2 and encoding an anti-sigma factor, suggesting that the lack of a functional TolC protein does not trigger RpoE-dependent stress response. Instead, by comparing the expression profile of the S. meliloti tolC mutant

with that of the wild-type strain, we observed 69-, 27-, and 14-fold increased expression in genes SMb21562, SMb21561, and SMb21560, respectively (Table 1). Amino acid sequence of SMb21562 shows identity with the periplasmic protein CpxP from several Enterobacteria, displaying two characteristic LTxxQ motifs (data not shown). SMb21560 encodes a putative sensor histidine kinase homologous to CpxA. SMb21561 encodes a putative response regulator Paclitaxel nmr homologous to CpxR. The Cpx two-component regulator is a well characterized system to sense misfolded proteins in the periplasm and other perturbations in the cell envelope [26, 27]. In Cpx signaling, unfolded proteins are recognized by CpxP, a periplasmically located inhibitor of the signaling sensor kinase CpxA, preventing CpxA to autophosphorylate. Nonphosphorylated CpxA is then unable to phosphorylate the cytoplasmic response regulator CpxR. The Cpx regulon of E. coli strain MC4100 contains at least 50 genes, some directly involved in maintenance of cell envelope proteins. These include periplasmic serine endoprotease DegP, disulfide oxidoreductase Dsb, periplasmic peptidyl-prolyl isomerase PpiA, phosphatidyl serine decarboxylase Psd, YccA, a modulator of FtsH proteolysis, periplasmic protein CpxP, and the two-component regulator CpxAR [28].

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