UMLS:C0519030 - FACTA Search

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

1. A 1,4-alpha-glucan phosphorylase from Klebsiella pneumoniae has been purified about 80-fold with an over-all yield greater than 35%. The purified enzyme has been shown to be homogeneous by gel electrophoresis at different pH-values, by isoelectric focusing, by dodecylsulfate electrophoresis and by ultracentrifugation. 2. The molecular weight of the native enzyme has been determined to be 180 000 by ultra-centrifugation studies, in good agreement with the value of 189 000 estimated by gel permeation chromatography. 3. The enzyme dissociates in the presence of 0.1% dodecylsulfate or 5 M guanidine hydrochloride into polypeptide chains. The molecular weight of these polypeptide chains has been found to be 88 000 by dodecylsulfate polyacrylamide gel electrophoresis and 99 000 by sedimentation equilibrium studies, indicating that the native enzyme is composed of two polypeptide chains. 4. The enzyme contains pyridoxalphosphate with a stoichiometry of two moles per 180 000 g protein, confirming that the 1,4-alpha-glucan phosphorylase from Klebsiella pneumoniae is a dimeric enzyme. 5. The amino acid composition of the enzyme has been determined, and its correspondence to that of 1,4-alpha-glucan phosphorylases from other sources is discussed. 6. The pI of the enzyme has been shown to be 5.3 and its pH-optimum to be about pH 5.9. The enzyme is stable in the range from pH 5.9 to 10.5.
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PMID:1, 4-alpha-Glucan phosphorylase from Klebsiella pneumoniae purification, subunit structure and amino acid composition. 1 45

We used polyacrylamide gel electrophoresis to examine the regulation and adenylylation states of glutamine synthetases (GSs) from Escherichia coli (GS(E)) and Klebsiella aerogenes (GS(K)). In gels containing sodium dodecyl sulfate (SDS), we found that GS(K) had a mobility which differed significantly from that of GS(E). In addition, for both GS(K) and GS(E), adenylylated subunits (GS(K)-adenosine 5'-monophosphate [AMP] and GS(E)-AMP) had lesser mobilities in SDS gels than did the corresponding non-adenylylated subunits. The order of mobilities was GS(K)-AMP < GS(K) < GS(E)-AMP < GS(E). We were able to detect these mobility differences with purified and partially purified preparations of GS, crude cell extracts, and whole cell lysates. SDS gel electrophoresis thus provided a means of estimating the adenylylation state and the quantity of GS present independent of enzymatic activity measurements and of determining the strain origin. Using SDS gels, we showed that: (i) the constitutively produced GS in strains carrying the glnA4 allele was mostly adenylylated, (ii) the GS-like polypeptide produced by strains carrying the glnA51 allele was indistinguishable from wild-type GS(K), and (iii) strains carrying the glnA10 allele contained no polypeptide having the mobility of GS(K) or GS(K)-AMP. Using native polyacrylamide gels, we detected the increased amount of dodecameric GS present in cells grown under nitrogen limitation compared with cells grown under conditions of nitrogen excess. In native gels there was neither a significant difference in the mobilities of adenylylated and non-adenylylated GSs nor a GS-like protein in cells carrying the glnA10 allele.
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PMID:Glutamine synthetase regulation, adenylylation state, and strain specificity analyzed by polyacrylamide gel electrophoresis. 3 58

1. Respiratory nitrate reductase of Bacillus licheniformis was extracted from the bacterial membranes by treatment with deoxycholate and purified to a homogeneous state by means of gel chromatography and anion-exchange chromatography. 2. The enzyme (Mr = 193,000, s20, w = 8.6) consists of two subunits, having apparent molecular weight of 150,000 (alpha subunit) and 57,000 (beta subunit), which are present in an equimolar ratio. It does not contain carbohydrate. Ageing of the enzyme appears to result in splitting of the polypeptide chains at specific sites followed by dissociation and reassociation of the digestion products in various combinations. 3. In contrast to Klebsiella aerogenes repiratory nitrate reductase, which is isolated in a tetrameric form that can be reversibly dissociated into a monomeric form by detergents, B. licheniformis nitrate reductase, after isolation, is always present in a monomeric form. This property is related to the difference in membrane localization of the enzyme in the two organisms. 4. B licheniformis nitrate reductase contains 6.9 atoms of non-heme iron, 6.7 atoms of acid-labile sulfide and 0.93 atoms of molybdenum per molecule of enzyme. The molybdenum seems to be part of a low-molecular weight peptide Mo-cofactor) to which it may be bound by interaction with thiol-groups. 5. Antiserum against the native enzyme contains antibodies against both subunits as well as the Mo-cofactor. The Mo-cofactor does not have any antigenic determininants in common with either the alpha or the beta subunit. Also neither subunit cross-reacts with antiserum against the other subunit. Whereas the respiratory nitrate reductases from K. aerogenes and Escherichia coli are immunologically related, the native enzyme from B. licheniformis does not show any cross-reaction with antiserum prepared against either the K. aerogenes or the E. coli enzyme.
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PMID:Purification and characterization of the respiratory nitrate reductase of Bacillus licheniformis. 10 96

Three new genes nifM, nifI and nifN have been mapped in the nif gene cluster of Klebsiella pneumoniae and a fourth gene nifJ has been confirmed as being a separate cistron. Polar nif mutations were obtained by transposition of Tn7 to plasmid pRD1, and of Tn5 and Tn10 to plasmid pMF100, a derivative of pRD1. Complementation analysis of the nif::Tn mutants led to the identification of at least six transcriptional units: nifB; nifA; nifJ; nifH, nifD and nifK; nifE and nifI; nifN, nifM and nifF. Biochemical and genetic evidence suggest that the three genes nifH, nifD and nifK, which are probably the structural genes for nitrogenase, belong to the same operon and are transcribed from nifH to nifK. A polypeptide with a molecular weight of approximately 120,000 is presumed to be the nifJ product.
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PMID:Polarity of mutations induced by insertion of transposons Tn5, Tn7 and Tn10 into the nif gene cluster of Klebsiella pneumoniae. 36 60

Polar mutations were obtained by integration of bacteriophage Mu c+ or Mu cts DNA into the Klebsiella pneumoniae nif genes located on plasmid pCE1, a derivative of pRD1. In addition, nif deletions were isolated from nif::Mu cts plasmids. Complementation data allowed the characterization of twelve nif cistrons, nine corresponding to previously identified genes. Polar effect of Mu DNA insertions suggested the existence of at least six transcription units: 1) nif K, nif D and nif H--2)nif A and nif L--3) nif E and a new gene--4) nif B--5) nif F--6) nif J. Nif K, nif D and nif H, which are most probably the structural genes for nitrogenase, seem to belong to the same operon transcribed from nif H to nif K. This was confirmed by SDS gel autoradiography of pulse labelled proteins. Moreover it was possible to identify, on the autoradiograms, a polypeptide which likely is the product of nif J and whose biosynthesis is under the control of nif A.
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PMID:Genetic and biochemical analysis of mutants induced by bacteriophage Mu DNA integration into Klebsiella pneumoniae nitrogen fixation genes. 36 77

The extracellular form of pullulanase (EC 3.2.1.41) from Klebsiella aerogenes has been purified to homogeneity by successive chromatography through diethylaminoethyl-cellulose, Sephadex G-200, and 1,6-diaminohexane-Sepharose. In addition, the cell-bound form of pullulanase has been released by the action of a serine endopeptidase obtained from Pronase and purified to apparent homogeneity. Protease-released pullulanase has a slightly larger molecular weight and a specific activity over twice that of the extracellular protein. The properties of each of these forms of pullulanase have been compared with those reported for the detergent-released form. Each form has different features as examined by amino acid composition, specific activity, molecular weight, or inhibition pattern, which distinguish it from the other pullulanases. It is hypothesized that a single gene product consisting of a single polypeptide chain generates these different enzyme forms after selective cleavages by endogenous or applied proteases.
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PMID:Extracellular and protease-released pullulanases. 94 14

1. The enzyme citramalate from Clostridium tetanomorphum is not stable in crude extracts. However, the inactive enzyme can be reactivated by incubation with dithioerythritol followed by acetylation with acetic anhydride. Reactivation was also obtained with acetate, ATP, MgCl2 and acetate : SH-enzyme ligases (AMP) from C. tetanomorphum or Klebsiella aerogenes. 2. Incubation of the inactive enzyme with iodoacetate resulted in rapid loss of enzymic activity as determined by reactivation with acetic anhydride whereas the active enzyme was stable in the presence of iodoacetate. Using ido[2-(14)C]acetate the sites of carboxymethylation and acetylation where identified as cysteamine residues of the enzyme. The results demonstrate that the active enzyme contains acetyl thiolester residues which play the central role in the catalytic mechanism. 3. Citramalate lyase was purified by a procedure almost identical to that already described for citrate lyase from K. aerogenes. The molecular weight of citramalate lyase is equal to that of citrate lyase (Mr = 5.2--5.8 X 10(5)) as estimated by gel chromatography and sucrose gradient centrifugation. Polyacrylamide gel elctrophoresis of citramalate lyase in sodium dodecylsulfate yielded three polypeptide chains (Mr: alpha 5.3--5.6 X 10(4); beta 3.3--3.6 X 10(4); gamma 1.0--1.2 X 10(4)) in probably equal molar amounts. These data lead to a hexameric structure (alpha,beta,gamma)6 of the complete enzyme. 4. Pantothenate (5 mol/mol of enzyme) and the essential cysteamine residues were exclusively present in the gamma-chain, the acyl carrier protein of citramalate lyase. The acyl exchange and cleavage functions, probably catalysed by the alpha and beta-subunits, were measured with acyl-CoA derivatives which were able to substitute for the natural acyl carrier. 5. The results demonstrate that citramalate lyase is an enzyme complex with structure and functions closely resembling those of citrate lyase. Although the similarity between citramalate lyase and citrate lyases from various organisms suggests a close evolutionary relationship, these occur in very different, unrelated bacteria. A parallel situation found in the distribution of the nitrogenase system among procaryotes is discussed.
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PMID:The enzyme complex citramalate lyase from Clostridium tetanomorphum. 127 56

Nonpathogenic mutants of Xanthomonas campestris pv. glycines 8ra were generated with N-methyl-N-nitro-N'-nitrosoguanidine to identify and characterize pathogenicity genes of the bacterium. A total of 16 nonpathogenic mutants were isolated from 2,000 colonies. One mutant, NP1, was chosen for further study. NP1 did not multiply in soybean cotyledons. A genomic library of strain 8ra was constructed in the cosmid pLAFR3, and the cosmids were tested for complementation in NP1. One cosmid clone, pIH1, which contained a 31-kb insert, complemented mutant NP1. A restriction map of pIH1 was constructed, and deletion analyses identified a 10-kb HindIII fragment that restored pathogenicity to NP1. Southern hybridization analysis indicated that DNA sequences in the 10-kb HindIII fragment are conserved among other X. campestris pathovars tested. Three regions responsible for restoring pathogenicity have been identified by Tn3-HoHo1 mutagenesis. A 2.7-kb ClaI fragment was sequenced, and two possible open reading frames (ORF1 and ORF2) were found. Results indicated that ORF2 but not ORF1 may be expressed in Escherichia coli and in X. campestris pv. glycines. The carboxy terminus of the potential polypeptide encoded by ORF2 has an amino acid sequence similar to that of the gamma subunit of oxaloacetate decarboxylase, which is involved in sodium ion transport in Klebsiella pneumoniae.
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PMID:Cloning and characterization of pathogenicity genes from Xanthomonas campestris pv. glycines. 131 32

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

A genomic library of Salmonella typhimurium DNA was constructed in the lambda-phage EMBL3 and screened by immunoblotting for expression of the oxaloacetate decarboxylase alpha-subunit. After subcloning on plasmids the entire sequence of the oxaloacetate decarboxylase was determined. The genes encoding subunits gamma (oadG), alpha (oadA), and beta (oadB) of the decarboxylase are clustered on the chromosome in that order. A typical consensus sequence of a promoter is not found upstream of the oadG gene, but putative ribosome binding regions can be identified before each subunit gene. The amino acid sequences are highly homologous to those of oxaloacetate decarboxylase from Klebsiella pneumoniae with 71% identity between the gamma-subunits, 92% identity between the alpha-subunits, and 93% identity between the beta-subunits. The homology between the corresponding beta-subunits appeared to exist only between the 312 N-terminal amino acid residues. It was shown that a cloning artifact has occurred during DNA sequence determination of the beta-subunit from K. pneumoniae and has led to erroneous results. The sequence of this polypeptide is corrected in the Appendix to this paper. A plasmid encoding the three oad genes and that for the anaerobic citrate carrier (citS) was cloned from the chromosomal DNA and used for sequence determination.
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PMID:Sequence of the sodium ion pump oxaloacetate decarboxylase from Salmonella typhimurium. 133 Oct 67

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