Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

A full-length cDNA clone, pZmSUMT1, encoding an S-adenosyl-L-methionine-dependent uroporphyrinogen III C-methyltransferase (SUMT; EC 2.1.1.107) of maize was isolated from a root cDNA library. pZmSUMT1 had an insert of 1.7 kb and the amino acid sequence deduced from the open reading frame of the cDNA was similar to that of SUMT from various bacteria and also to the SUMT catalytic region of siroheme synthase (cysG) from Escherichia coli. Overproduction of ZmSUMT1 in a cysG mutant of E. coli eliminated the requirement of the strain for cysteine. Transcripts for ZmSUMT1 accumulated rapidly in both rots and leaves in response to the addition of nitrate to the culture medium. The effects of biochemical inhibitors on the nitrate-dependent induction of the gene for ZmSUMT1 coincided with the effects on the genes for other nitrate-assimilatory enzymes, nitrate reductase and nitrite reductase. An import experiment in vitro suggested that the gene product might be located in plastids. The results together indicate that ZmSUMT1 might be involved in the synthesis of siroheme, a prosthetic group of nitrite reductase, and that the expression of its gene is co-regulated with that of other nitrate-assimilatory genes.
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PMID:Isolation and characterization of a cDNA that encodes maize uroporphyrinogen III methyltransferase, an enzyme involved in the synthesis of siroheme, which is prosthetic group of nitrite reductase. 895 49

Cleavage of chromosomal DNA from Pseudomonas aeruginosa PAO by Spel and Dpnl has been used together with PFGE and Southern hybridization to establish the map location of the following principal denitrification genes: narGH (encoding the large and small subunits of respiratory nitrate reductase), nirS (cytochrome-cd1 nitrite reductase), nirE (uroporphyrinogen-III methyltransferase for haem d1 biosynthesis), norCB (nitric-oxide reductase complex), nosZ (nitrous-oxide reductase) and nosA (an outer-membrane protein and OprC homologue). The study also included several genes related to anaerobic or microaerophilic metabolism: napA (encoding the catalytic subunit of the periplasmic nitrate reductase), ccoN (catalytic subunit of the cytochrome-cbb3 oxidase), hemN (oxygen-independent coproporphyrinogen-III oxidase), an fnr-like regulatory gene, and azu and fdxA (electron carriers azurin and ferredoxin, respectively). Genes necessary for denitrification are concentrated at 20 to 36 min on the P. aeruginosa chromosome, where they form three separate loci, the nir-nor, nar and nos gene clusters. Genomic DNA of Pseudomonas stutzeri ZoBell was also subjected to Spel restriction and Southern analysis to assign denitrification genes to individual fragments. A homologue of nosA encoding a putative component of the Cu-processing apparatus for nitrous-oxide reductase was identified. In both P. aeruginosa and P. stutzeri there is evidence for the linkage of anr (fnrA) with hemN and ccoN; and for the presence of a napA gene.
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PMID:Localization of denitrification genes on the chromosomal map of Pseudomonas aeruginosa. 949 81

A unique class of chlorate-resistant mutants of Escherichia coli which produced formate hydrogenlyase and nitrate reductase activities only when grown in medium with limiting amounts of sulfur compounds was isolated. These mutants failed to produce the two molybdoenzyme activities when cultured in rich medium or glucose-minimal medium. The mutations in these mutants were localized in the moeA gene. Mutant strains with polar mutations in moeA which are also moeB did not produce active molybdoenzymes in any of the media tested. moeA mutants with a second mutation in either cysDNCJI or cysH gene lost the ability to produce active molybdoenzyme even when grown in medium limiting in sulfur compounds. The CysDNCJIH proteins along with CysG catalyze the conversion of sulfate to sulfide. Addition of sulfide to the growth medium of moeA cys double mutants suppressed the MoeA- phenotype. These results suggest that in the absence of MoeA protein, the sulfide produced by the sulfate activation/reduction pathway combines with molybdate in the production of activated molybdenum. Since hydrogen sulfide is known to interact with molybdate in the production of thiomolybdate, it is possible that the MoeA-catalyzed activated molybdenum is a form of thiomolybdenum species which is used in the synthesis of molybdenum cofactor from Mo-free molybdopterin.
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PMID:Physiological and genetic analyses leading to identification of a biochemical role for the moeA (molybdate metabolism) gene product in Escherichia coli. 951 15