Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.1.99.3 (PRE)
 1,923 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of NH4NO3 on the development of root nodules of Pisum sativum after infection with Rhizobium leguminosarum (strain PRE) and on the nitrogenase activity of the bacteroids in the nodule tissue were studied. The addition of NH4NO3 decreased the nitrogenase activity measured on intact nodules. This reduction of nitrogen fixation did not result from a reduced number of bacteroids or a decreased amount of bacteroid proteins per gram of nodule. The synthesis of nitrogenase, measured as the relative amount of incorporation of [35S]sulfate into the components I and II of nitrogenase was similarly not affected. The addition of NH4NO3 decreased the amount of leghemoglobin in the nodules and there was a quantitative correlation between the leghemoglobin content and the nitrogen-fixing capacity of the nodules. The conclusion is that the decrease of nitrogen-fixing capacity is caused by a decrease of the leghemoglobin content of the root nodules and not by repression of the nitrogenase synthesis.
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PMID:The effect of ammonium nitrate on the synthesis of nitrogenase and the concentration of leghemoglobin in pea root nodules induced by Rhizobium leguminosarum. 62 88

In order to study the structural organization and regulation of the expression of the nitrogenase gene cluster in Rhizobium leguminosarum PRE we selected relevant subfragments of the sym-plasmid from clone banks by homology with R. meliloti nif-genes. Site-directed Tn5 mutagenesis was applied to a nif DH-specific clone and subsequently the transposon insertions were transferred back into the wild-type rhizobial genome by homologous recombination. Phenotypic effects of Tn5 mutations in the region of the structural nif-genes were determined by measuring acetylene reduction in nodulated plants and by immunological analysis of bacteroid-specific proteins. The localization of Tn5 insertion sites was in accordance with observed consequences: two genotypically different Tn5-induced mutations within nif D caused repression of CI alpha and beta synthesis and a strong reduction of CII production, thus resulting in a Fix- phenotype. Expression of different cloned Rhizobium DNA inserts, bearing nif K, nif D, nif H, or nif DH, was achieved in Escherichia coli minicells dependent upon the presence of a strong upstream vector promoter sequence. Gene products were identified by immunoprecipitation with specific antisera. Endogenous rhizobial transcriptional start signals in one case (nif H) seemed to be recognized at a low rate by the E. coli system; in contrast, Rhizobium ribosome binding sites for all three structural nif-genes functioned normally in minicells. The approximate location of the coding regions for nif KDH genes was determined and found to be contiguous.
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PMID:Molecular cloning and functional characterization of Rhizobium leguminosarum structural nif-genes by site-directed transposon mutagenesis and expression in Escherichia coli minicells. 633 Feb 64

Hydrogen evolution by nitrogenase is a source of inefficiency for the nitrogen fixation process by the Rhizobium-legume symbiosis. To develop a strategy to generate rhizobial strains with H(2)-recycling ability, we have constructed a Tn5 derivative minitransposon (TnHB100) that contains the ca. 18-kb H(2) uptake (hup) gene cluster from Rhizobium leguminosarum bv. viciae UPM791. Bacteroids from TnHB100-containing strains of R. leguminosarum bv. viciae PRE, Bradyrhizobium japonicum, R. etli, and Mesorhizobium loti expressed high levels of hydrogenase activity that resulted in full recycling of the hydrogen evolved by nitrogenase in nodules. Efficient processing of the hydrogenase large subunit (HupL) in these strains was shown by immunoblot analysis of bacteroid extracts. In contrast, Sinorhizobium meliloti, M. ciceri, and R. leguminosarum bv. viciae UML2 strains showed poor expression of the hup system that resulted in H(2)-evolving nodules. For the latter group of strains, no immunoreactive material was detected in bacteroid extracts using anti-HupL antiserum, suggesting a low level of transcription of hup genes or HupL instability. A general procedure for the characterization of the minitransposon insertion site and removal of antibiotic resistance gene included in TnHB100 has been developed and used to generate engineered strains suitable for field release.
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PMID:Generation of new hydrogen-recycling Rhizobiaceae strains by introduction of a novel hup minitransposon. 1101 Aug 72