The transcription factor FNR, the regulator of fumarate and nitrate reduction, regulates major changes as Escherichia coli adapts from aerobic to anaerobic growth. In an anaerobic glycerol/ trimethylamine N-oxide/fumarate medium, the fnr mutant grew as well as the parental strain, E. coli K12 MG1655, enabling us to reveal the response to oxygen, nitrate, and nitrite in the absence of glucose repression or artifacts because of variations in growth rate. Hence, many of the discrepancies between previous microarray studies of the E. coli FNR regulon were resolved. The current microarray data confirmed 31 of the previously characterized FNR-regulated operons. Forty four operons not previously known to be included in the FNR regulon were activated by FNR, and a further 28 operons appeared to be repressed. For each of these operons, a match to the consensus FNR-binding site sequence was identified. The FNR regulon therefore minimally includes at least 103, and possibly as many as 115, operons. Comparison of transcripts in the parental strain and a narXL deletion mutant revealed that transcription of 51 operons is activated, directly or indirectly, by NarL, and a further 41 operons are repressed. The narP gene was also deleted from the narXL mutant to reveal the extent of regulation by phosphorylated NarP. Fourteen promoters were more active in the narP ؉ strain than in the mutant, and a further 37 were strongly repressed. This is the first report that NarP might function as a global repressor as well as a transcription activator. The data also revealed possible new defense mechanisms against reactive nitrogen species.In several recent studies, genome-wide transcription data have been analyzed to reveal the extent of the biochemical changes as Escherichia coli K12 adapts from aerobic to anaerobic growth. Salmon et al. (1) compared RNA isolated from cultures of strain MC4100 that had been grown aerobically or anaerobically and also from an anaerobic culture of an fnr mutant that lacks FNR, 2 the regulator of fumarate and nitrate reduction, which is a global regulator of many oxygen-regulated genes. In similar experiments, Kang et al. (2) grew both strain MG1655, for which the complete genome sequence is available, and an isogenic fnr mutant aerobically and anaerobically in a minimal salts medium, and compared their transcriptome data with those from the previous study. In both groups of experiments, glucose was used as the carbon source for growth, and in both studies rigorous statistical methods and cluster analysis were used to analyze the data. In the former study, expression levels of 1,445 genes changed in response to the availability of oxygen. Although the corresponding figure in the study of Kang et al. (2) was 962, only 334 genes were common to both data sets, and of those, 123 appeared to be regulated in opposite directions. Thus only 211 genes showed similar responses, 10% of the 2073 genes for which changes were observed.Both of the previous studies were valuable in revealing the far greater extent of chan...
