Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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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)
The substituents of the noncovalently associated heme prosthetic group of the bacterial
nitrite reductase
-cytochrome oxidase (EC 1.9.6.1 or EC 1.9.3.2.) from Pseudomonas aeruginosa (ATCC 19429) and Paracoccus denitrificans (ATCC 13456) have been identified. This was accomplished by 1H NMR, infrared, visible, and mass spectroscopic techniques applied to semi-purified heme and purified methyl ester derivatives of the iron-free porphyrin. The main structural features are as follows. 1) The macrocycle is a reduced porphyrin of the chlorin type, that is, one of the pyrrole rings has been saturated so that the beta-carbons have sp3-hybridization. 2) The chlorin is a tetracarboxylic acid. 3) The substituents of the saturated pyrrole ring are two methyl groups and two hydroxymethyl groups. 4) The substituents of the unsaturated pyrrole rings are: (i) two methyl groups (ii) a
propionic acid
(iii) an acrylic acid, and (iv) two directly bonded formic acid groups. No firm evidence has been obtained for the relative positions of these unsaturated beta-pyrrolic substituents around the macrocyclic ring, but a proposed structure will be discussed. Several previously inexplicable chemical properties of the heme in extracts or in the intact enzyme can be now interpreted in view of the proposed structure. The trivial name "acrylochlorin" is suggested for the macrocycle.
...
PMID:Proposed structure for the noncovalently associated heme prosthetic group of dissimilatory nitrite reductases. Identification of substituents. 642 Apr 11
This paper reported an efficient method to significantly reduce nitrous oxide (N(2)O) and nitric oxide (NO) generation in anaerobic-aerobic (low dissolved oxygen) processes. It was found that by the use of waste-activated sludge alkaline fermentation liquid as the synthetic wastewater-carbon source, compared with the commonly used carbon source in the literature (e.g., acetic acid), the generation of N(2)O and NO was reduced by 68.7% and 50.0%, respectively, but the removal efficiencies of total phosphorus (TP) and total nitrogen (TN) were improved. Both N(2)O and NO were produced in the low dissolved oxygen (DO) stage, and the use of sludge fermentation liquid greatly reduced their generation from the denitrification. The presences of Cu(2+) and
propionic acid
in fermentation liquid were observed to play an important role in the reduction of N(2)O and NO generation. The analysis of the activities of denitrifying enzymes suggested that sludge fermentation liquid caused the significant decrease of both
nitrite reductase
activity to NO reductase activity ratio and NO reductase activity to N(2)O reductase activity ratio, which resulted in the lower generation of NO and N(2)O. Fluorescence in situ hybridization analysis indicated that the number of glycogen accumulating bacteria, which was reported to be relevant to nitrous oxide generation, in sludge fermentation liquid reactor was much lower than that in acetic acid reactor. The quantitative detection of the nosZ gene, encoding nitrous oxide reductase, showed that the use of fermentation liquid increased the number of bacteria capable of reducing N(2)O to N(2). The feasibility of using sludge fermentation liquid to reduce NO and N(2)O generation in an anaerobic-low DO process was finally confirmed for a municipal wastewater.
...
PMID:Reduction of N2O and NO generation in anaerobic-aerobic (low dissolved oxygen) biological wastewater treatment process by using sludge alkaline fermentation liquid. 2132 43
