نتایج جستجو برای: narl

تعداد نتایج: 133  

Journal: :Biochemistry 1998
I Baikalov I Schröder M Kaczor-Grzeskowiak D Cascio R P Gunsalus R E Dickerson

The structure of the Escherichia coli response regulator NarL has been solved in a new, monoclinic space group, and compared with the earlier orthorhombic crystal structure. Because the monoclinic crystal has two independent NarL molecules per asymmetric unit, we now have three completely independent snapshots of the NarL molecule: two from the monoclinic form and one from the orthorhombic. Com...

Journal: :Journal of bacteriology 1993
M Choe W S Reznikoff

A newly identified anaerobically expressed locus, aeg-46.5, which is located at min 46.5 on Escherichia coli linkage map, was cloned and analyzed. The phenotype of this gene was studied by using a lacZ operon fusion. aeg-46.5 is induced anaerobically in the presence of nitrate in wild-type and narL cells. It is repressed by the narL gene product, as it showed derepressed anaerobic expression in...

Journal: :Journal of bacteriology 1994
I Schröder C D Wolin R Cavicchioli R P Gunsalus

The NarX, NarQ, and NarL proteins make up a nitrate-responsive regulatory system responsible for control of the anaerobic respiratory pathway genes in Escherichia coli, including nitrate reductase (narGHJI), dimethyl sulfoxide/trimethylamine-N-oxide reductase (dmsABC), and fumarate reductase (frdABCD) operons among others. The two membrane-bound proteins NarX and NarQ can independently sense th...

Journal: :Microbiology 2008
Beatrice Benkert Nicole Quäck Kerstin Schreiber Lothar Jaensch Dieter Jahn Max Schobert

Denitrification and arginine fermentation are major parts of the anaerobic metabolism of Pseudomonas aeruginosa, which is important for biofilm formation and infection. The two-component regulatory system NarX-NarL is part of the underlying network and is required for denitrifying growth. All target promoters identified so far are activated by NarL. In this study the effect of NarL on arginine ...

Journal: :Microbiology 2008
Jonathan D Partridge Douglas F Browning Meng Xu Louise J Newnham Colin Scott Ruth E Roberts Robert K Poole Jeffrey Green

In Escherichia coli K-12 the expression of many genes is controlled by the oxygen-responsive transcription factor FNR and the nitrate- and nitrite-responsive two-component systems NarXL and NarPQ. Here, the ydhY gene is shown to be the first gene of a six-gene operon (ydhYVWXUT) that encodes proteins predicted to be components of an oxidoreductase. Mapping the ydhY-T transcript start and site-d...

Journal: :Journal of bacteriology 1998
A J Darwin E C Ziegelhoffer P J Kiley V Stewart

The expression of several Escherichia coli operons is activated by the Fnr protein during anaerobic growth and is further controlled in response to nitrate and nitrite by the homologous response regulators, NarL and NarP. Among these operons, the napF operon, encoding a periplasmic nitrate reductase, has unique features with respect to its Fnr-, NarL-, and NarP-dependent regulation. First, the ...

2010
Alice V. Lin Valley Stewart

NarL and NarP are paralogous response regulators that control anaerobic gene expression in response to the favoured electron acceptors nitrate and nitrite. Their DNA-binding carboxyl termini are in the widespread GerE-LuxR-FixJ subfamily of tetrahelical helix-turn-helix domains. Previous biochemical and crystallographic studies with NarL suggest that dimerization and DNA binding by the carboxyl...

Journal: :Microbiology 2011
Julie O'Callaghan F Jerry Reen Claire Adams Fergal O'Gara

A steep oxygen gradient within the mucus of the cystic fibrosis (CF) lung combined with the biofilm mode of bacterial growth forces respiratory pathogens to adapt to varying oxygen availability. This study presents the novel finding that the Pseudomonas aeruginosa response to limiting oxygen stress includes induction of its type III secretion system (T3SS), which subsequently contributes toward...

Journal: :Proceedings of the National Academy of Sciences of the United States of America 1987
S Iuchi E C Lin

Escherichia coli, which can utilize O2, nitrate, fumarate, or trimethylamine N-oxide (Me3NO) as terminal electron acceptor, preferentially utilizes the one with the highest redox potential. Thus O2 prevents induction of nitrate, fumarate, and Me3NO reductases, and nitrate curtails the induction of fumarate and Me3NO reductases. Under anaerobic conditions the narL gene product, in the presence o...

Journal: :The Journal of biological chemistry 1988
S F Li J A DeMoss

Nitrate reductase, encoded by the nar operon in Escherichia coli, is produced only under anaerobic conditions and induced to its maximum level in the presence of nitrate. The anaerobic expression of the nar operon depends on the fnr gene product (Fnr), and the stimulation of anaerobic expression by nitrate requires the narL gene product (NarL). Distinct regulatory domains within the nar promote...

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