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Query: EC:1.7.1.2 (
nitrate reductase
)
3,861
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Biotyping of Haemophilus influenzae into five type and H. parainfluenzae into three types based on indole production, ornithine decarboxylase, and urease has been reported (M. Kilian, Acta Pathol. Microbiol. Scand. Sect. B 82:835--842, 1976). A commercially available test system designed for the 4-h identification of Enterobacteriaceae. Micro-ID, proved efficacious for the rapid biotyping of these two Haemophilus species. The
nitrate reductase
, indole production, ornithine decarboxylase, urease, and o-nitrophenyl-beta-D-galactopyranoside hydrolysis tests in Micro-ID correlated over 99% with conventional methodology. By utilizing the indole and o-nitrophenyl-beta-D-galactopyranoside tests it was possible, with 261 of 272 (96.1%) isolates, to distinguish
H. influenzae
from H. parainfluenzae. Cerebrospinal fluid isolates were over 90%
H. influenzae
biotype I, and conjunctival isolates were approximately 70% biotype II. Type b
H. influenzae
were predominantly biotypes I and II; these type b isolates were also overwhelmingly indole producers. Although over 90% of biotypes I and II have been reported to produce beta-lactamase, this was not confirmed by the small number of beta-lactamase producers encountered here. The 4-h Micro-ID should prove a useful mechanism, amenable to the routine clinical laboratory, for the further exploration of the association of Haemophilus with the site of isolation, antigenicity, and antibiotic resistance.
...
PMID:Rapid biochemical characterization of Haemophilus species by using the micro-ID. 698 1
During growth in high concentrations of iron nitrate,
H. influenzae
produces compounds reactive in biochemical assays for hydroxamates. Mixing experiments established that nitrate was responsible for inducing these compounds. Analysis by 1H and 13C NMR and high resolution mass spectrometry identified the active species as 2,2-bis(3'-indolyl)indoxyl. Bacterial production of the latter compound has been previously observed only in Pseudomonas aureofaciens. A mutant defective in the production of 2,2-bis(3'-indolyl)indoxyl was constructed by marker insertion. The formation of indole and 2,2-bis (3'-indolyl)indoxyl was quantitated by reverse-phase high pressure liquid chromatography during growth in high concentrations of nitrate. The mutant produced high concentrations of indole, but only minimal amounts of 2,2-bis(3'-indolyl)indoxyl, and also proved to be defective in nitrate reduction. These data suggest that indole may function as an electron donor for
nitrate reductase
in
H. influenzae
.
...
PMID:Production and oxidation of indole by Haemophilus influenzae. 781 18
The napB gene of the pathogenic bacterium Haemophilus influenzae encodes a dihaem cytochrome c, the small subunit of a heterodimeric periplasmic
nitrate reductase
similar to those found in other bacteria. In order to obtain sufficient protein for biophysical studies, we aimed to overproduce the recombinant dihaem protein in Escherichia coli. Initial expression experiments indicated that the NapB signal peptide was not cleaved by the leader peptidase of the host organism. Apocytochrome was formed under aerobic, semi-aerobic and anaerobic growth conditions in either Luria--Bertani or minimal salts medium. The highest amounts of apo-NapB were produced in the latter medium, and the bulk was inserted into the cytoplasmic membrane. The two haem groups were covalently attached to the pre-apocytochrome only under anaerobic growth conditions, and with 2.5 mM nitrite or at least 10 mM nitrate supplemented to the minimal salts growth medium. In order to obtain holocytochrome, the gene sequence encoding mature NapB was cloned in-frame with the E. coli ompA (outer membrane protein A) signal sequence. Under anaerobic conditions, NapB was secreted into the periplasmic space, with the OmpA signal peptide being correctly processed and with both haem c groups attached covalently. Unless expressed in the DegP-protease-deficient strain HM125, some of the recombinant NapB polypeptides were N-terminally truncated as a result of proteolytic activity. Under aerobic growth conditions, co-expression with the E. coli ccm (cytochrome c maturation) genes resulted in a higher yield of holocytochrome c. The pure recombinant NapB protein showed absorption maxima at 419, 522 and 550 nm in the reduced form. The midpoint reduction potentials of the two haem groups were determined to be -25 mV and -175 mV. These results support our hypothesis that the Nap system fulfils a nitrate-scavenging role in
H. influenzae
.
...
PMID:Overproduction, purification and novel redox properties of the dihaem cytochrome c, NapB, from Haemophilus influenzae. 1138 94
Periplasmic
nitrate reductase
(napFDAGHBC operon product) functions in anaerobic respiration. Transcription initiation from the Escherichia coli napF operon control region is activated by the Fnr protein in response to anaerobiosis and by the NarQ-NarP two-component regulatory system in response to nitrate or nitrite. The binding sites for the Fnr and phospho-NarP proteins are centered at positions -64.5 and -44.5, respectively, with respect to the major transcription initiation point. The E. coli napF operon is a rare example of a class I Fnr-activated transcriptional control region, in which the Fnr protein binding site is located upstream of position -60. To broaden our understanding of napF operon transcriptional control, we studied the Haemophilus influenzae Rd napF operon control region, expressed as a napF-lacZ operon fusion in the surrogate host E. coli. Mutational analysis demonstrated that expression required binding sites for the Fnr and phospho-NarP proteins centered at positions -81.5 and -42.5, respectively. Transcription from the E. coli napF operon control region is activated by phospho-NarP but antagonized by the orthologous protein, phospho-NarL. By contrast, expression from the
H. influenzae
napF-lacZ operon fusion in E. coli was stimulated equally well by nitrate in both narP and narL null mutants, indicating that phospho-NarL and -NarP are equally effective regulators of this promoter. Overall, the
H. influenzae
napF operon control region provides a relatively simple model for studying synergistic transcription by the Fnr and phospho-NarP proteins acting from class I and class II locations, respectively.
...
PMID:Fnr-, NarP- and NarL-dependent regulation of transcription initiation from the Haemophilus influenzae Rd napF (periplasmic nitrate reductase) promoter in Escherichia coli K-12. 1619 62
