Abstract
The ArcB/ArcA two-component signal transduction system of Escherichia coli regulates gene expression in response to the redox conditions of growth. Over the years, genetic screens have lead to the identification of about 30 ArcA-P-controlled operons that are involved in redox metabolism. However, the discovery of 3 targets that are not implicated in respiratory metabolism (the tra operon for plasmid conjugation, psi site for Xer-based recombination, and oriC site for chromosome replication) suggests that the Arc modulon may comprise additional operons that are involved in a myriad of functions. To identify these operons, we derived the ArcA-P-dependent transcription profile of E. coli using oligonucleotide-based microarray analysis. The findings indicated that 9% of all open reading frames in E. coli are affected either directly or indirectly by ArcA-P. To identify which operons are under the direct control of ArcA-P, we developed the ArcA-P recognition weight matrix from footprinting data and used it to scan the genome, yielding an ArcA-P sequence affinity map. By overlaying both methods, we identified 55 new Arc-regulated operons that are implicated in energy metabolism, transport, survival, catabolism, and transcriptional regulation. The data also suggest that the Arc response pathway, which translates into a net global downscaling of gene expression, overlaps partly with the FNR regulatory network. A conservative but reasonable assessment is that the Arc pathway recruits 100-150 operons to mediate a role in cellular adaptation that is more extensive than hitherto anticipated.
Highlights
The discovery of 3 targets that are not implicated in respiratory metabolism suggests that the Arc modulon may comprise additional operons that are involved in a myriad of functions
The findings indicated that 9% of all open reading frames in E. coli are affected either directly or indirectly by ArcA-P
In Escherichia coli, gene expression in response to changing respiratory conditions of growth is partially mediated by the Arc two-component signal transduction system [1,2,3,4,5,6], which comprises the transmembrane ArcB sensor kinase and its cytosolic cognate response regulator ArcA [7, 8]
Summary
ArcA-P, phospho-ArcA; MOPS, 4-morpholinepropanesulfonic acid; MES, 4-morpholineethanesulfonic acid; ORF, open reading frame. A subsequent homology search that included ArcA-P-protected promoter regions of cydAB, pflA, gltA, lldPRD, sdhCDAB, and sodA, plus the entire promoter regions of 16 additional operons whose expressions are ArcA-P-controlled, led to the suggestion of 5ЈnGTTAATTAn-3Ј (n is A or T) as the ArcA-P binding consensus [15]. This 10-bp consensus proved useful for locating ArcA-P binding sites at two novel targets that are not involved in respiratory metabolism: the tra operon for conjugation of resistance plasmid R1 [16], and the psi site for Xer-based recombination in plasmid pSC101 [17]. By combining both techniques we aimed to: (i) identify operons that are most likely under the direct control of ArcA-P, (ii) estimate conservatively the number of operons that are Arc-controlled, and (iii) reveal which physiological roles are governed by the Arc pathway in E. coli
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