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Query: EC:1.7.1.4 (nitrite reductase)
 1,847 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Operon fusion strains and mutants of Escherichia coli K-12 lacking the NADH-dependent nitrite reductase have been used to determine the regulation and physiological roles of two independent pathways for nitrite reduction to ammonia. Both the formate- and NADH-dependent pathways (Nrf and Nir, respectively) were totally repressed during aerobic growth, partially active during anaerobic growth in the absence of nitrite and further induced anaerobically by nitrite. Both were dependent upon a functional Fnr protein (a transcription activator of genes for anaerobic respiration). During anaerobic growth in the presence of nitrate, the Nir pathway was fully induced but Nrf was strongly repressed. Mutants defective in the NarL protein, which induces transcription of nitrate reductase genes but represses fumarate reductase genes in the presence of nitrate, were derepressed for Nrf activity during growth with nitrate, but the Nir enzyme was less active. The synthesis of Nrf components was also sensitive to glucose repression and weak activation by NarL during growth in the absence of nitrate. These data indicate that the Nir pathway provides a mechanism for detoxifying nitrite formed in the cytoplasm as a product of nitrate reduction. In contrast, the electrogenic reduction of nitrite by the Nrf pathway provides a secondary source of energy during anaerobic growth and is consequently repressed by the NarL protein when the thermodynamically more favourable electron acceptor, nitrate, is available. Two short DNA sequences, 5'-TACCAT-3' and 5'-CTCCTT-3', were found in the promoters of operons known to be activated or repressed by the NarL protein.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Different physiological roles of two independent pathways for nitrite reduction to ammonia by enteric bacteria. 217 95

The 74-min region of the Escherichia coli chromosome includes five open reading frames of known sequence. The first and last of these genes, nirB and cysG, are transcribed in the same direction and both are essential for NADH-dependent nitrite reductase activity. The functions of the other genes, nirD, nirE and nirC, which are located between nirB and cysG, are unknown. The nirB gene is transcribed from a promoter which is anaerobically induced, expression being dependent on the transcription activator protein, Fnr. Here we show that the nirD, nirE, nirC and cysG genes are also expressed from the nirB promoter. After subcloning cysG, a second promoter was located less than 100 bases upstream of cysG. Two groups of transcription start points separated by 40 bases were detected in this region by S1 mapping. Rates of transcription from the isolated cysG promoter were the same during aerobic growth and anaerobic growth in the presence or absence of nitrite. However, when the nirB gene and its promoter were cloned back upstream from the cysG promoter, the rate of transcription was higher during anaerobic growth than during aerobic growth and was further induced by nitrite. These increases were totally dependent on a functional fnr gene and were shown by S1 mapping experiments to be due to transcriptional read-through from the Fnr-dependent nirB promoter. No promoter activity was associated with DNA fragments between the BamHI site located within the N-terminal coding region of the nirB gene and the cysG promoter located at the C-terminus of nirC.
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PMID:Transcriptional control of the cysG gene of Escherichia coli K-12 during aerobic and anaerobic growth. 220 Jun 73

Analysis of the Neisseria gonorrhoeae DNA sequence database revealed the presence of two genes, one encoding a protein predicted to be 37. 5% identical (50% similar) in amino acid sequence to the Escherichia coli FNR protein and the other encoding a protein 41% and 42% identical (54 and 51% sequence similarity) to the E. coli NarL and NarP proteins respectively. Both genes have been cloned into E. coli and insertionally inactivated in vitro. The mutated genes have been transformed into gonococci and recombined into the chromosome. The fnr mutation totally abolished and the narP mutation severely diminished the ability of gonococci to: (i) grow anaerobically; (ii) adapt to oxygen-limited growth; (iii) initiate transcription from the aniA promoter (which directs the expression of a copper-containing nitrite reductase, AniA, in response to the presence of nitrite); and (iv) reduce nitrite during growth in oxygen-limited media. The product of nitrite reduction was identified to be nitrous oxide. Immediately upstream of the narL/narP gene is an open reading frame that, if translated, would encode a homologue of the E. coli nitrate- and nitrite-sensing proteins NarX and NarQ. As transcription from the aniA promoter was not activated during oxygen-limited growth in the presence of nitrate, the gonococcal two-component regulatory system is designated NarQ-NarP rather than NarX-NarL. As far as we are aware, this is the first well-documented example of a two-component regulatory system working in partnership with a transcription activator in pathogenic neisseria. A 45 kDa c-type cytochrome that was synthesized during oxygen-limited, but not during oxygen sufficient, growth was identified as a homologue of cytochrome c peroxidases (CCP) of other bacteria. The gene for this cytochrome, designated ccp, was located, and its regulatory region was cloned into the promoter probe vector pLES94. Transcription from the ccp promoter was repressed during aerobic growth and induced during oxygen-limited growth and was totally FNR dependent, suggesting that the gonococcal FNR protein is a transcription activator of at least two genes. However, unlike AniA, synthesis of the CCP homologue was insensitive to the presence of nitrite during oxygen-limited growth.
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PMID:Identification of transcription activators that regulate gonococcal adaptation from aerobic to anaerobic or oxygen-limited growth. 1097 6