Regulation of the flavorubredoxin nitric oxide reductase gene in Escherichia coli: nitrate repression, nitrite induction, and possible post-transcription control

Escherichia coli flavorubredoxin is a new type of cytoplasmic nitric oxide (NO) reductase, which shows NO reductase activity within the range of the canonical membrane-bound heme b3-iron NO reductases. Using reverse-transcription polymerase chain reaction we show that although the flavorubredoxin ge...

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Bibliographic Details
Published inFEMS microbiology letters Vol. 218; no. 2; pp. 385 - 393
Main Authors da Costa, Patrícia N, Teixeira, Miguel, Saraiva, Lígia M
Format Journal Article
LanguageEnglish
Published Oxford Oxford University Press 01.01.2003
Subjects
Anaerobic conditions
Anaerobiosis
Bacteria
Cytochrome
Cytochrome c
Cytochromes
E coli
Escherichia coli
Flavohemoglobin
FlRd protein
Gene expression
Growth conditions
Heme
Iron
Levels
Microbiology
Nitric oxide
Nitric-oxide reductase
Nitrite reductase
Nitrites
Polymerase chain reaction
Post-transcription
Proteins
Reductases
Transcription factors
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Summary:Escherichia coli flavorubredoxin is a new type of cytoplasmic nitric oxide (NO) reductase, which shows NO reductase activity within the range of the canonical membrane-bound heme b3-iron NO reductases. Using reverse-transcription polymerase chain reaction we show that although the flavorubredoxin gene (flrd) is transcribed in both aerobic and anaerobic conditions, anaerobiosis induced transcription up to 12-fold, under fermentative conditions; a 28-fold stimulation was observed in an E. coli fnr mutant strain, showing that the flavorubredoxin gene is negatively regulated by FNR. The level of anaerobic transcription was repressed three-fold by nitrate, but induced 47-fold by nitrite. The transcription factors NarL and NarP are not essential for flrd expression. Furthermore, the addition of NO within the physiological range of concentrations does not induce anaerobic transcription of flrd. Since two other E. coli proteins are known to exhibit NO reductase activity, flavohemoglobin and the pentaheme cytochrome c nitrite reductase, we have also compared the concentrations of their mRNAs with those of flavorubredoxin, under the same growth conditions. Transcription of the putative transcriptional activator of flavorubredoxin, ygaA, is also regulated by the absence of oxygen and the presence of nitrite. Levels of FlRd protein did not correlate with mRNA levels. The results reveal that a complex regulation of flavorubredoxin expression is operative, possibly by both transcriptional and post-transcriptional mechanisms.
ISSN:0378-1097
1574-6968
DOI:10.1016/S0378-10970201186-2