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Query: UMLS:C0519030 (Klebsiella)
21,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transcriptional activation by the Klebsiella pneumoniae nitrogen-fixation-specific positive control protein, NIFA, (nifA gene product) has been demonstrated in vitro in S30 extracts from cells which overproduce this protein. The activity of NIFA was dramatically reduced in vitro in the presence of the negative regulatory protein NIFL (nifL gene product) but was not inhibited by the presence of a mutant NIFL protein, NIFL2404. Transcriptional activation from the nifH promoter by NIFA was dependent on the alternative sigma factor, sigma 54, and also required the presence of an upstream activator sequence. NIFA activity was temperature-sensitive in vitro (as it is in vivo) which is due, at least in part, to the intrinsic lability of the protein itself. The majority of overproduced NIFA and NIFL was insoluble after low-speed centrifugation and was inactive in vitro. A low level of less aggregated NIFA protein present in cell extracts was responsible for in vitro activity and this fraction was partially purified.
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PMID:Characterisation of the Klebsiella pneumoniae nitrogen-fixation regulatory proteins NIFA and NIFL in vitro. 215 46

The nucleotide (nt) sequence of the Rhizobium leguminosarum nifH promoter region contains a consensus promoter, a consensus upstream activator sequence (UAS), a pseudo (psi) promoter and a psi UAS. We mapped the transcription start point for the consensus promoter sequence by primer extension. This promoter differs from the consensus in one of the four supposedly invariant nt and can be activated by the Klebsiella pneumoniae nifA product in Escherichia coli. Under these conditions the psi promoter and psi UAS do not function. A low-copy-number plasmid construct containing the psi UAS as well as the consensus UAS delayed the onset of symbiotic nitrogen fixation in nodules induced on Pisum sativum. Studies of high-copy-number nifH promoter constructs showed that partial deletion of the consensus UAS does not alter the ability to inhibit nitrogen fixation by titration of NifA suggesting that NifA can also complex with RNA polymerase containing the alternative sigma-factor RpoN.
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PMID:The nifH promoter region of Rhizobium leguminosarum: nucleotide sequence and promoter elements controlling activation by NifA protein. 218 38

Klebsiella pneumoniae synthesized only b-type and d-type cytochromes under the wide range of growth conditions tested, and reaction with CO revealed two potential oxidases. The o-type oxidase was produced only in the presence of O2 and appeared to be repressed by glucose. The d-type oxidase was, by contrast, produced only in the absence of measurable O2 (less than 1 microM), and was the only oxidase expressed in nitrogen-fixing conditions. It was extracted from the membrane, purified and shown to be similar to that from E. coli in being a heterodimer (subunits of Mr 52,000 and 35,000), in containing two distinguishable b haems and haem d (one or two molecules per molecule of oxidase), and in being able to react with O2 to give a stable oxygenated intermediate. The purified d-type cytochrome oxidase had a very high affinity for O2 (Km 20 nM; measured by the spectral properties of leghaemoglobin). It is proposed that this provides a role for this oxidase in lowering the O2 concentration to allow nitrogenase synthesis and function, and to provide a terminal oxidase to permit electron-transport-coupled ATP synthesis which supports the increase in efficiency of nitrogen fixation observed under microaerobic conditions.
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PMID:The purification, characterization and role of the d-type cytochrome oxidase of Klebsiella pneumoniae during nitrogen fixation. 219 Oct 76

A binary plasmid system was used to produce nitrogenase components in Escherichia coli and subsequently to define a minimum set of nitrogen fixation (nif) genes required for the production of the iron-molybdenum cofactor (FeMoco) reactivatable apomolybdenum-iron (apoMoFe) protein of nitrogenase. The active MoFe protein is an alpha 2 beta 2 tetramer containing two FeMoco clusters and 4 Fe4S4 P centers (for review see, Orme-Johnson, W.H. (1985) Annu. Rev. Biophys. Biophys. Chem. 14, 419-459). The plasmid pVL15, carrying a tac-promoted nifA activator gene, was coharbored in E. coli with the plasmid pGH1 which contained nifHDKTYENXUSVWZMF' derived from the chromosome of the nitrogen fixing bacterium Klebsiella pneumoniae. The apoMoFe protein produced in E. coli by pGH1 + VL15 was identical to the apoprotein in derepressed cells of the nifB- mutant of K. pneumoniae (UN106) in its electrophoretic properties on nondenaturing polyacrylamide gels as well as in its ability to be activated by FeMoco. The constituent peptides migrated identically to those from purified MoFe protein during electrophoresis on denaturing gels. The concentrations of apoMoFe protein produced in nif-transformed strains of E. coli were greater than 50% of the levels of MoFe protein observed in derepressed wild-type K. pneumoniae. Systematic deletion of individual nif genes carried by pGH1 has established the requirements for the maximal production of the FeMoco-reactivatable apoMoFe protein to be the following gene products, NifHDKTYUSWZM+A. It appears that several of the genes (nifT, Y, U, W, and Z) are only required for maximal production of the apoMoFe protein, while others (nifH, D, K, and S) are absolutely required for synthesis of this protein in E. coli. One curious result is that the nifH gene product, the peptide of the Fe protein, but not active Fe protein itself, is required for formation of the apoMoFe protein. This suggests the possibility of a ternary complex of the NifH, D, and K peptides as the substrate for the processing to form the apoMoFe protein. We also find that nifM, the gene which processes the nifH protein into Fe protein (Howard, K.S., McLean, P.A., Hansen, F. B., Lemley, P.V., Kobla, K.S. & Orme-Johnson, W.H. (1986) J. Biol. Chem. 261, 772-778) can, under certain circumstances, partially replace other processing genes (i.e. nifTYU and/or WZ) although it is not essential for apoMoFe protein formation. It also appears that nifS and nifU, reported to play a role in Fe protein production in Azotobacter vinelandii, play no such role in K. pneumoniae, although these genes are involved in apoMoFe formation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Genes required for formation of the apoMoFe protein of Klebsiella pneumoniae nitrogenase in Escherichia coli. 220 91

The regulatory protein NIFA activates transcription of nitrogen fixation (nif) operons by the sigma 54 holoenzyme form of RNA polymerase. NIFA from Klebsiella pneumoniae activates transcription from the nifH promoter in vitro; in addition, the integration host factor, IHF, binds between the nifH promoter and an upstream binding site for NIFA. We demonstrate here that IHF greatly stimulates NIFA-mediated activation of nifH transcription in vitro and thus that the two factors are functionally synergistic. Electron micrographs indicate that IHF bends the DNA in the nifH promoter regulatory region. Although IHF binds close to the nifH promoter, it does not directly stimulate binding of sigma 54 holoenzyme. Rather, the IHF-induced bend may facilitate productive contacts between NIFA and sigma 54 holoenzyme that lead to the formation of open complexes. IHF binds to nif promoter regulatory regions from a variety of organisms within the phylum "purple bacteria," suggesting a general ability to stimulate NIFA-mediated activation of nif transcription.
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PMID:The integration host factor stimulates interaction of RNA polymerase with NIFA, the transcriptional activator for nitrogen fixation operons. 220 75

The nac (nitrogen assimilation control) gene from Klebsiella aerogenes, cloned in a low-copy-number cloning vector, restored the ability of K. aerogenes nac mutants to activate histidase and repress glutamate dehydrogenase formation in response to nitrogen limitation and to limit the maximum expression of the nac promoter. When present in Salmonella typhimurium, the K. aerogenes nac gene allowed the hut genes to be activated during nitrogen-limited growth. Thus, the nac gene encodes a cytoplasmic factor required for activation of hut expression in S. typhimurium during nitrogen-limited growth.
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PMID:Cloning of the Klebsiella aerogenes nac gene, which encodes a factor required for nitrogen regulation of the histidine utilization (hut) operons in Salmonella typhimurium. 225 73

Klebsiella aerogenes W70 could grow aerobically with nitrate or nitrite as the sole nitrogen source. The assimilatory nitrate reductase and nitrite reductase responsible for this ability required the presence of either nitrate or nitrite as an inducer, and both enzymes were repressed by ammonia. The repression by ammonia, which required the NTR (nitrogen regulatory) system (A. Macaluso, E. A. Best, and R. A. Bender, J. Bacteriol. 172:7249-7255, 1990), did not act solely at the level of inducer exclusion, since strains in which the expression of assimilatory nitrate reductase and nitrite reductase was was independent of the inducer were also susceptible to repression by ammonia. Insertion mutations in two distinct genes, neither of which affected the NTR system, resulted in the loss of both assimilatory nitrate reductase and nitrite reductase. One of these mutants reverted to the wild type, but the other yielded pseudorevertants at high frequency that were independent of inducer but still responded to ammonia repression.
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PMID:Regulation of assimilatory nitrate reductase formation in Klebsiella aerogenes W70. 225 83

The influence of the Klebsiella pneumoniae nifL gene product upon the interaction of the transcriptional activator protein NifA with the nifH promoter has been examined using in vivo dimethylsulphate 'footprinting'. Binding of NifA to the upstream activator sequence (UAS) of the nifH promoter in the presence of the NifL protein was observed under nitrogen-limiting growth conditions. Growth in the presence of NH4+ or addition of NH4+ to nitrogen-limited cells diminished the interaction of NifA with the UAS when NifL was present. Repression of nif transcription by NifL may therefore involve an interaction between NifL and NifA which reduces the affinity of NifA for the UAS.
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PMID:The influence of the Klebsiella pneumoniae regulatory gene nifL upon the transcriptional activator protein NifA. 228 Jun 85

The protein nitrogen regulator I (NRI)-phosphate is known to activate the initiation of transcription of the Escherichia coli glnA gene. This activation is facilitated by the binding of the protein to NRI-specific sites located upstream of the sigma 54-dependent glnA promoter. To determine whether binding of NRI-phosphate to upstream sites is sufficient for activation, we placed several promoters not normally activated by NRI-phosphate downstream of NRI binding sites and measured activation in intact cells and in an in vitro transcription system. We found that the sigma 70-dependent lac promoter was not activated, that the sigma 54-dependent Klebsiella pneumoniae nifH promoter was weakly activated, and that a nifH promoter altered in the RNA polymerase binding site was almost as well activated as the glnA promoter. We conclude that the sensitivity of the susceptible promoter depends on the presence of NRI binding sites, but that the presence of bound NRI-phosphate upstream of a promoter is not sufficient for activation of transcription by RNA polymerase. This activation is determined by the structure of the RNA polymerase binding site. We suggest that sigma 54-but not sigma 70-dependent promoters are susceptible to activation by NRI-phosphate and that the nucleotide sequence of the sigma 54-RNA polymerase binding site is an important determinant of the efficiency of activation.
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PMID:Role of the promoter in activation of transcription by nitrogen regulator I phosphate in Escherichia coli. 240 58

The carbon and nitrogen metabolism of Klebsiella pneumoniae M5a1 has been characterized using 13C and 15N labeling with detection by cross-polarization magic-angle spinning solid-state NMR. Cells grown on ammonium typically require some 20 h to derepress fully for nitrogenase when transferred to medium devoid of any source of fixed nitrogen. We have established that during this period some cellular proteins are catabolized with the liberated nitrogen being used for the synthesis of purines needed for formation of ribosomal RNA. The 20-h derepression period can be shortened to 6 h by the introduction of fixed nitrogen in certain specific forms. Serine is the most successful agent we have examined for shortening the derepression period and glycine among the least successful. We attribute this difference to the advantage of serine over glycine in providing both specific and nonspecific carbon and nitrogen sources for complete purine synthesis. These determinations were made by tracing the metabolism of 13C- and 15N-labeled chemical bonds from the 2 amino acids during derepression.
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PMID:Solid-state NMR studies of Klebsiella pneumoniae grown under nitrogen-fixing conditions. 243 59

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