Figure 6 M-values of specific genes throughout the time-course following acidic pH shift in S. meliloti 1021 wild type strain (closed squares) and sigma factor rpoH1 mutant (open squares). Graphics A and B exemplify RpoH1-independent up and downregulation, respectively, whereas graphics D and E show RpoH1-dependently regulated genes. Torin 1 C and F account for complex RpoH1-dependent downregulation in the later time points following acidic shift. Identification of S. meliloti genes that are regulated in an RpoH1-dependent manner following an acidic pH shift Genes classified as RpoH1-dependent did not present significant differential

selleck chemicals expression after pH shift in the rpoH1 mutant arrays, having shown otherwise a threefold differential expression for at least one time point in the wild type arrays. They comprise as many as 101 genes of the S. meliloti genome whose transcription

after pH shift seems to be dependent on ACP-196 concentration rpoH1 expression (Additional file 4). A number of protein turnover and chaperone genes were upregulated in the wild type arrays, such as the ones coding for the heat shock proteins IbpA, GrpE and GroEL5 (Figure 6D), as the ones coding for the Clp proteases, which are involved in the degradation of misfolded proteins [25]. No differential expression whatsoever was observed for those genes in the rpoH1 mutant arrays, characterizing thus an RpoH1-dependent expression of stress-response genes upon acid pH shift (Figure 5B, Additional file 6). Genes involved in translation, like tufA and tufB, rplC rplD and rplS, were downregulated, characterizing a seemingly RpoH1-dependent inhibition of translational activity in S. meliloti

cells under pH stress. Genes cheW3 and mcpT (Figure 6E), coding 5-FU solubility dmso for proteins involved in chemotaxis, were also downregulated only in the wild type arrays. Identification of S. meliloti genes that are regulated in a complex manner following an acidic pH shift RpoH1 is also involved in the downregulation of specific transiently expressed genes. Interestingly, three genes from wild type cluster C were not grouped in cluster I as transiently upregulated in the rpoH1 mutant arrays. Those are the genes dctA, coding for a dicarboxylate transport protein, ndvA, coding for a beta glucan export protein, and the gene smc01505, which codes for the RpoE2 anti-sigma factor. These genes seem to have an RpoH1-independent upregulation, but an RpoH1-dependent downregulation as of 20 minutes following pH shift. In the wild type arrays, their expression is transient, but in the rpoH1 mutant arrays they remained upregulated throughout the entire time period analyzed (Figure 6C, F).