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

Human milk, particularly colostrum, is rich in host-resistance factors, including immunoglobulins, principally secretory IgA; C4, C3, and C3 proactivators; lactoferrin, the iron-binding protein; a nitrogen-containing compound which promotes growth of Lactobacillus bifidus; a fatty acid with antistaphylococcal properties; interferon, the antiviral protein; and living leukocytes. Storage of human milk, as is done in Europe, reduces or diminishes some of these factors, depending on storage method (freezing or pasteurization). However, all storage methods destroy the living leukocytes, which are particularly abundant in colostrum, and the consequences of this loss are discussed in this editorial. Studies of neonatal rats rendered hypoxic and orally challenged with Klebsiella died if unsuckled. Fresh rat milk was protective, but frozen rat milk was not; hence, the protection from Klebsiella is apparently caused by colostral leukocytes, since washed colostral leukocytes restored the protective effects to cell-free milk. In humans the effects of colostral leukocytes in protection of the maternal mammary gland or the gastrointestinal tract of the recipient infant are unknown, although evidence suggests that fresh human milk also confers resistance. A note of caution is sounded, however; milk from other than the natural mother may not protect the infant in the same manner.
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PMID:Human milk, leukocytes, and immunity. 83 Aug 87

Regulation of nitrogen fixation by ammonium and glutamate was examined in Rhizobium sp. 32H1 growing in defined liquid media. Whereas nitrogenase synthesis in Klebsiella pneunoniae is normally completely repressed during growth on NH4+, nitrogenase activity was detected in cultures of Rhizobium sp. grown with excess NH4+. However, an "ammonium effect" on activity was invariably observed in cultures grown on NH4+ as sole nitrogen source; the nitrogenase activity was, depending on conditions, 14 to 36% of that of comparable glutamate-grown cultures. Glutamate inhibited utilization of exogenous NH4+ and, in one of two procedures described, glutamate partially alleviated the ammonium effect on nitrogenase activity. NH4+, apparently produced from N2, was excreted into the culture medium when growth was initiated on glutamate, but not when NH4+ was thesole source of fixed nitrogen for growth. These findings are discussed in relation to nitrogen fixation by Rhizobium bacteroids.
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PMID:Regulation of nitrogen fixation in Rhizobium sp. 98 26

When cell-saturating amounts of glucose and phosphate were added to steady state cultures of Klebsiella aerogenes that were, respectively, glucose- and phosphate-limited, the organisms responded immediately with an increased oxygen consumption rate. This suggested that in neither case was glucose transport the rate-limiting process, and also that organisms must possess effective mechanisms for spilling the excess energy initially generated when a growth-limitation is temporarily relieved. Steady state cultures of mannitol- or glucose-limited organisms also seemingly generated energy at a greater rate than was required for cell synthesis since gluconate-limited cultures consumed oxygen at a lower rate, at each corresponding growth rate, than did mannitol- or glucose-limited cultures, and therefore expressed a higher YO value. Thus, mannitol- and glucose-limitations must be essentially carbon (and not energy) limitations. The excess energy generated by glucose metabolism is one component of "maintenance" and could be used at lower growth rates to maintain an increased solute gradient across the cell membrane, imposed by the addition of 2%, w/v, NaCl to the growth environment. The maintenance rates of oxygen consumption of K. aerogenes also could be caused to increase by adding glucose discontinuously (drop-wise) to a glucose-limited chemostat culture, or by exchanging nitrate for ammonia as the sole utilizable nitrogen source. The significance of these findings to an assessment of the physiological factors circumscribing energy-spilling reactions in aerobic cultures of K. aerogenes is discussed.
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PMID:The role of energy-spilling reactions in the growth of Klebsiella aerogenes NCTC 418 in aerobic chemostat culture. 101 53

Selected mutant strains of Klebsiella pneumoniae that are unable to fix nitrogen have been characterized according to nitrogenase component activity as well as antigenic cross-reacting material. The lesions in these strains have been mapped by transduction, and the results indicate that there are at least five genes specifically responsible for nitrogen fixation in vivo. Besides genes that specify the structure of the two nitrogenase components, there is a gene for a factor that is required for component I activity and a gene that codes for a factor possibly involved in electron transport to component II. A mutation in another site does not allow the organism to produce either of the nitrogenase components. All of these genes are co-transducible with the gene that specifics the structure of histidinol dehydrogenase.
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PMID:Biochemistry and genetics of Klebsiella pneumoniae mutant strains unable to fix N2. 109 Jun 2

We have isolated a temperature-sensitive mutant of Klebsiella aerogenes unable to grow aerobically at 42 C in standard glucose minimal medium containing 0.03 M ammonium sulfate as a source of nitrogen. This strain, MK810, will grow at this temperature in significantly lower concentrations of ammonia (1 mM) or when ammonia is replaced by a growth rate-limiting source of nitrogen such as histidine or glutamate. A detailed physiological characterization and preliminary biochemical tests support the contention that the mutant has an altered alpha-ketoglutarate dehydrogenase that at the restrictive condition fails to manufacture sufficient succinyl-coenzyme A. We explain the ammonia sensitivity by the dual role of alpha-ketoglutarate as substrate for the formation of succinyl-coenzyme A and glutamate. A defect in the enzyme necessary for the production of succinyl-coenzyme A makes ammonia an overly effective competitor for alpha-ketoglutarate.
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PMID:Ammonia-sensitive mutant of Klebsiella aerogenes. 126 16

We demonstrate that certain phosphoryl transfer proteins of the bacterial phosphotransferase system (PTS), the fructose- and mannitol-specific IIA proteins or domains, are homologous to a class of proteins, one of which is known to affect transcription of some of the nitrogen-regulatory sigma 54-dependent operons in Klebsiella pneumoniae. The phosphorylatable histidyl residue in the homologous PTS proteins and the consensus sequence in the vicinity of the active-site histidine are fully conserved in all members that comprise this family of proteins. A phylogenetic tree of the eight protein members of this family was constructed, and a "signature" sequence that can serve for the identification of new protein members of this family is proposed. These observations suggest that PTS-catalyzed protein phosphorylation may provide a regulatory link between carbon and nitrogen assimilation in bacteria.
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PMID:A proposed link between nitrogen and carbon metabolism involving protein phosphorylation in bacteria. 130 14

Helicobacter pylori produces a potent urease that is believed to play a role in the pathogenesis of gastroduodenal diseases. Four genes (ureA, ureB, ureC, and ureD) were previously shown to be able to achieve a urease-positive phenotype when introduced into Campylobacter jejuni, whereas Escherichia coli cells harboring these genes did not express urease activity (A. Labigne, V. Cussac, and P. Courcoux, J. Bacteriol. 173:1920-1931, 1991). Results that demonstrate that H. pylori urease genes could be expressed in E. coli are presented in this article. This expression was found to be dependent on the presence of accessory urease genes hitherto undescribed. Subcloning of the recombinant cosmid pILL585, followed by restriction analyses, resulted in the cloning of an 11.2-kb fragment (pILL753) which allowed the detection of urease activity (0.83 +/- 0.39 mumol of urea hydrolyzed per min/mg of protein) in E. coli cells grown under nitrogen-limiting conditions. Transposon mutagenesis of pILL753 with mini-Tn3-Km permitted the identification of a 3.3-kb DNA region that, in addition to the 4.2-kb region previously identified, was essential for urease activity in E. coli. Sequencing of the 3.3-kb DNA fragment revealed the presence of five open reading frames encoding polypeptides with predicted molecular weights of 20,701 (UreE), 28,530 (UreF), 21,744 (UreG), 29,650 (UreH), and 19,819 (UreI). Of the nine urease genes identified, ureA, ureB, ureF, ureG, and ureH were shown to be required for urease expression in E. coli, as mutations in each of these genes led to negative phenotypes. The ureC, ureD, and ureI genes are not essential for urease expression in E. coli, although they belong to the urease gene cluster. The predicted UreE and UreG polypeptides exhibit some degree of similarity with the respective polypeptides encoded by the accessory genes of the Klebsiella aerogenes urease operon (33 and 92% similarity, respectively, taking into account conservative amino acid changes), whereas this homology was restricted to a domain of the UreF polypeptide (44% similarity for the last 73 amino acids of the K. aerogenes UreF polypeptide). With the exception of the two UreA and UreB structural polypeptides of the enzyme, no role can as yet be assigned to the nine proteins encoded by the H. pylori urease gene cluster.
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PMID:Expression of Helicobacter pylori urease genes in Escherichia coli grown under nitrogen-limiting conditions. 131 13

Streptomyces ATP nucleotide 3'-pyrophosphokinase is an extracellular, ribosome-independent, and stringent factor-mimic ppGpp synthetase with an unusually broad acceptor spectrum. The gene-containing DNA fragments cloned from chromosomal DNA of a producer S. morookaensis into pIJ699 and pUC plasmids were found to express the active enzyme in the transformed S. lividans TK24 and enteric E. coli JM109 and nitrogen-fixing Klebsiella pneumoniae M5a1 and 5022, respectively. Base sequence of the structural gene and the deduced amino acid sequence exhibited little homology to those of E. coli stringent factor and related proteins. Growth retardation was seen in some transformants.
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PMID:Streptomyces ATP nucleotide 3'-pyrophosphokinase and its gene. 133 83

The cloning and sequence determination is reported of the DNA region of Rhizobium leguminosarum coding for glutamine synthetase II (GSII). An open reading frame (ORF) encoding 326 amino acids was defined as the glnII gene on the basis of its similarity to other glnII genes and the ability of a DNA fragment carrying this ORF to complement the glutamine auxotrophy of a Klebsiella pneumoniae glnA mutant. We find that the glnII gene in R. leguminosarum is transcribed as a monocistronic unit from a single promoter, which shows structural features characteristic of rpoN (ntrA)-dependent promoters. In K. pneumoniae, such promoters require the ntrC and rpoN (ntrA) gene products for transcription. The intracellular level of glnII mRNA changes when R. leguminosarum is grown on different nitrogen sources, as expected for regulation by the nitrogen regulatory system. Promoter deletion analysis has shown that an extensive upstream DNA sequence (316 bp) is essential for in vivo activation of the glnII promoter in different biovars of R. leguminosarum. This DNA region requires a wild-type ntrC gene for activity and includes two conserved putative NtrC-binding site sequences. The results conclusively show that transcription from the R. leguminosarum glnII promoter is fully dependent on positive control by NtrC protein and on an upstream activator sequence (UAS).
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PMID:Activation of the Rhizobium leguminosarum glnII gene by NtrC is dependent on upstream DNA sequences. 135 39

Selection for chlorate resistance yields mol (formerly chl) mutants with defects in molybdenum cofactor synthesis. Complementation and genetic mapping analyses indicated that the Klebsiella pneumoniae mol genes are functionally homologous to those of Escherichia coli and occupy analogous genetic map positions. Hypoxanthine utilization in other organisms requires molybdenum cofactor as a component of xanthine dehydrogenase, and thus most chlorate-resistant mutants cannot use hypoxanthine as a sole source of nitrogen. Surprisingly, the K. pneumoniae mol mutants and the mol+ parent grew equally well with hypoxanthine as the sole nitrogen source, suggesting that K. pneumoniae has a molybdenum cofactor-independent pathway for hypoxanthine utilization.
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PMID:Molybdenum cofactor (chlorate-resistant) mutants of Klebsiella pneumoniae M5al can use hypoxanthine as the sole nitrogen source. 140 Jan 80

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