Several lines of evidence further support the role of so2426 in t

Several lines of evidence further support the role of so2426 in the regulation of iron acquisition in S. oneidensis MR-1. A recent study applying gene network reconstruction to MR-1 indicated that SO2426 clusters with iron acquisition genes in a distinct iron-responsive network system [14]. Within this iron acquisition gene network were a number of members

of the SO2426 regulon proposed here, namely, so1188, so1190, so3025, so3030-3031-3032, so3063, and so4743 [14]. All of these genes, including so2426, were up-regulated under iron-depleted growth conditions compared to iron-replete conditions. Additionally, PD0332991 so3030 was up-regulated almost 14-fold in a fur mutant, while genes so3031-so3033 were up-regulated 4 to 11-fold [13]. A separate transcriptomic study with a fur deletion mutant revealed that the gene with the greatest expression change in the fur mutant LDN-193189 solubility dmso compared to the MR-1 wild-type strain was so2426, which showed a 30- and 26-fold increase in expression at the transcript level under aerobic and anaerobic growth conditions, respectively [12]. In addition to the enhanced expression

of so2426 in a fur mutant, this gene has been shown to be up-regulated under chromate [15, 41] and strontium [42] stress. The presence of a putative Fur-binding sequence in the promoter region of so2426 suggests that expression of this response regulator may be subject to multiple levels of regulatory control. Identification of a Fur box immediately 4��8C downstream of the -10 promoter element and up-regulation of so2426 expression in a fur deletion mutant are both consistent with repression of this gene by Fur under iron-sufficient conditions. Similarly, of those genes encoding transport and binding proteins, ftn, so1580, the so3030-3031-3032 operon, so4516, and so4743

are probable members of the Fur regulon based on their derepressed expression patterns in a S. oneidensis Δfur mutant and the presence of a putative Fur box in their respective upstream regions [12]. Collectively, these observations suggest cross-regulation of iron-responsive and other metal-responsive gene networks in S. oneidensis MR-1. SO2426 binds in region of PD173074 datasheet predicted recognition site upstream of alcA Given the potential overlap in the response of S. oneidensis to iron and other metals, we chose to focus on the S. oneidensis siderophore biosynthesis operon in testing the interaction of two recombinant versions of the SO2426 protein with its predicted binding motif. The direct involvement of so3030-3031-3032 in the production of hydroxamate-type siderophores was recently demonstrated with deletion mutants within this gene cluster [43].

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