UMLS:C0348321 - FACTA Search

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Query: UMLS:C0348321 (Haemophilus)
15,372 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cloned afu locus of Actinobacillus pleuropneumoniae restored the ability of an Escherichia coli K-12 mutant (aroB) to grow on iron-limited media. DNA sequence analysis of the fragment showed that there are three genes designated afuA, afuB and afuC (Actinobacillus ferric uptake) that encode products similar to the SfuABC proteins of Serratia marcescens, the HitABC proteins of Haemophilus influenzae, the FbpABC proteins of Neisseria gonorrhoeae and the YfuABC proteins of Yersinia enterocolitica. The three genes encode a periplasmic iron-binding protein (AfuA), a highly hydrophobic integral cytoplasmic membrane protein with two consensus permease motifs (AfuB) and one hydrophilic peripheral cytoplasmic membrane protein with Walker ATP-binding motifs (AfuC), respectively. This system has been shown to constitute a periplasmic binding protein-dependent iron transport system in these organisms. The afuABC operon is locating approximately 200 bp upstream of apxIC gene, but transcribed in opposite direction to the ApxI-toxin genes.
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PMID:Identification of a locus involved in the utilization of iron by Actinobacillus pleuropneumoniae. 880 93

The complete Haemophilus influenzae genome (1.83 Mb, Rd strain) provides opportunities for characterizing global genomic inhomogeneities and for detecting important sequence signals. Along these lines, new methods for identifying frequent words (oligonucleotides and/or peptides) and their distributions are applied to the H.influenzae genome with some comparisons and contrasts made with frequent words of other bacterial genomes. Three major classes of frequent oligonucleotides stand out: (i) oligos related to the familiar uptake signal sequences (USSs), AAGTGCGGT (USS+) and its inverted complement (USS-), (ii) multiple tetranucleotide iterations and (iii) intergenic dyad sequences (ISDs) found as AAGCCCACCCTAC and its dyad form. The USS+ and USS- occur in almost equal counts, are remarkably evenly spaced around the genome, and appear predominantly in the same reading frame of protein coding domains (USS+ translated to Ser-Ala-Val, USS- translated to Thr-Ala-Leu). These observations suggest that USSs contribute to global genomic functions, for example, in replication and/or repair processes, or as membrane attachment sites, or as sequences helping to pack DNA. The long tetranucleotide iterations, virtually unique to H.influenzae (i.e., unknown in other prokaryotes), through polymerase slippage during replication and/or homologous recombination may produce subpopulations expressing alternative proteins. The 13 bp frequent IDS words, invariably intergenic, occur mostly in clusters and provide potential for complex secondary structures suggesting that these sequences may be important signals for regulating the activity of their flanking genes. The frequent oligopeptides of H.influenzae are principally of two kinds--those induced by oligonucleotide frequent words (USSs, tetranucleotide iterations), and those associated with ATP or GTP binding sites that are generally composed of three motifs: the A-box which contributes to delineating the binding pocket; the B-box which functions in hydrolysis; and the C-box whose function is unknown. The A-box occurs fairly universally in prokaryotes and eukaryotes. The B- and C-motifs appear to be specialized to various functional groups (e.g., transport, recombination, chaperone activity). Other putative motifs correspond to homologs of Escherichia coli motifs, for example, are associated with proteins of transcriptional processing, aminoacyl-tRNA synthetases and proteins functioning in electron transfer.
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PMID:Frequent oligonucleotides and peptides of the Haemophilus influenzae genome. 893 82

Glycyl-tRNA synthetase (Gly-tRNA synthetase) from Thermus thermophilus was purified to homogeneity and with high yield using a five-step purification procedure in amounts sufficient to solve its crystallographic structure [Logan, D.T., Mazauric, M.-H., Kern, D. & Moras, D. (1995) EMBO J. 14, 4156-4167]. Molecular-mass determinations of the native and denatured protein indicate an oligomeric structure of the alpha 2 type consistent with that found for eukaryotic Gly-tRNA synthetases (yeast and Bombyx mori), but different from that of Gly-tRNA synthetases from mesophilic prokaryotes (Escherichia coli and Bacillus brevis) which are alpha 2 beta 2 tetramers. N-terminal sequencing of the polypeptide chain reveals significant identity, reaching 50% with those of the eukaryotic enzymes (B. mori, Homo sapiens, yeast and Caenorhabditis elegans) but no significant identity was found with both alpha and beta chains of the prokaryotic enzymes (E. coli, Haemophilus influenzae and Coxiella burnetii) albeit the enzyme is deprived of the N-terminal extension characterizing eukaryotic synthetases. Thus, the thermophilic Gly-tRNA synthetase combines strong structural homologies of eukaryotic Gly-tRNA synthetases with a feature of prokaryotic synthetases. Heat-stability measurements show that this synthetase keeps its ATP-PPi exchange and aminoacylation activities up to 70 degrees C. Glycyladenylate strongly protects the enzyme against thermal inactivation at higher temperatures. Unexpectedly, tRNA(Gly) does not induce protection. Cross-aminoacylations reveal that the thermophilic Gly-tRNA synthetase charges heterologous E. coli tRNA(gly(GCC)) and tRNA(Gly(GCC)) and yeast tRNA(Gly(GCC)) as efficiently as T. thermophilus tRNA(Gly). All these aminoacylation reactions are characterized by similar activation energies as deduced from Arrhenius plots. Therefore, contrary to the E. coli and H. sapiens Gly-tRNA synthetases, the prokaryotic thermophilic enzyme does not possess a strict species specificity. The results are discussed in the context of the three-dimensional structure of the synthetase and in the view of the particular evolution of the glycinylation systems.
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PMID:An example of non-conservation of oligomeric structure in prokaryotic aminoacyl-tRNA synthetases. Biochemical and structural properties of glycyl-tRNA synthetase from Thermus thermophilus. 894 70

The nucleotide sequence of clpX, which is localized between the tig (trigger factor) and the lon (ATP-dependent protease) genes at 245 degrees on the standard Bacillus subtilis (Bs) genetic map, was determined. The putative clpX gene codes for a 46-kDa protein of 421 amino acid (aa) residues. A comparison of the deduced aa sequence with those of the recently described bacterial clpX gene products from Synechocystis sp., Escherichia coli (Ec), Haemophilus influenzae and Azotobacter vinelandii revealed strong similarities. However, in contrast to Ec, clpX and clpP of Bs are located at different loci on the chromosome and are transcribed as monocistronic genes. A heat-inducible sigma A-like promoter was mapped upstream of the clpX structural gene, but no CIRCE element, characteristic of class-I heat-shock genes (e.g., groESL and dnaK), was found between the transcriptional and translational start sites. Although the majority of the heat-inducible general stress genes in Bs are under the control of the alternative sigma factor, sigma B, the heat induction of clpX appears to be sigma B-independent. The latter indicates that clpX belongs to class-III heat-inducible genes.
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PMID:Sequence and transcriptional analysis of clpX, a class-III heat-shock gene of Bacillus subtilis. 897 11

Treponema pallidum, the agent of syphilis, cannot be continuously cultivated in vitro. To identify treponemal genes encoding exported proteins, we performed TnphoA mutagenesis of a T. pallidum genomic DNA library in Escherichia coli. Clone 6D2 was chosen for further study based on partial nucleotide sequence obtained from p6D2 containing a TnphoA insertion. A complete open reading frame (orf1) and a truncated orf (orf2) were identified in the treponemal DNA of p6D2. Orf1 encodes a hydrophobic protein of 531 amino acids with a calculated M(r) of 57,882 Da. The deduced amino acid sequence of Orf1 has homology to the MglC proteins of E. coli, Haemophilus influenzae, and Salmonella typhimurium. T. pallidum Orf1 (MglC) contains a conserved motif that is found in integral cytoplasmic membrane proteins of ATP-binding cassette (ABC) transport systems. T. pallidum orf2 encodes a protein of 496 amino acids with a calculated M(r) of 55,547 Da. The deduced amino acid sequence of Orf2 has homology to the MglA proteins of S. typhimurium, E. coli, H. influenzae, and Mycoplasma genitalium. Orf2 (MglA) contains two consensus ATP-binding motifs. T. pallidum mglA and mglC are located downstream of mglB, consistent with the gene order of previously identified mgl operons. The putative T. pallidum mgl operon encodes the first high-affinity ABC transport system identified in this spirochete.
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PMID:Identification and sequences of the Treponema pallidum mglA and mglC genes. 898 65

We report that Haemophilus influenzae encodes a 268 amino acid ATP-dependent DNA ligase. The specificity of Haemophilus DNA ligase was investigated using recombinant protein produced in Escherichia coli. The enzyme catalyzed efficient strand joining on a singly nicked DNA in the presence of magnesium and ATP (Km = 0.2 microM). Other nucleoside triphosphates or deoxynucleoside triphosphates could not substitute for ATP. Haemophilus ligase reacted with ATP in the absence of DNA substrate to form a covalent ligase-adenylate intermediate. This nucleotidyl transferase reaction required a divalent cation and was specific for ATP. The Haemophilus enzyme is the first example of an ATP-dependent DNA ligase encoded by a eubacterial genome. It is also the smallest member of the covalent nucleotidyl transferase superfamily, which includes the bacteriophage and eukaryotic ATP-dependent polynucleotide ligases and the GTP-dependent RNA capping enzymes.
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PMID:Characterization of an ATP-dependent DNA ligase encoded by Haemophilus influenzae. 906 Apr 31

A Lac+ papillation assay was used to identify mutants (tex) of Escherichia coli that exhibit an increased frequency of precise excision of a lacZ::Tn10dKan insertion. Three tex strains had suffered mutations in the gene (ssb) encoding the essential single-stranded DNA-binding protein SSB, which resulted in the following alterations in the 177-residue protein: G4D; L10F, P24S; and V102M. The phenotypes of these ssb mutants indicated that they were largely unaffected in other functions mediated by SSB, such as DNA replication, recombination, and repair. Strains with multicopy ssb+ exhibited a decreased frequency of Tn10dKan precise excision. Three other tex mutants had insertion mutations in the locus designated uup at 21.75 min on the linkage map. The nucleotide sequence of uup was determined, and the gene was inferred to encode a 625-amino-acid hydrophilic protein that belongs to the superfamily of ABC-domain proteins (with two pairs of the Walker A and B motifs), which are postulated to be involved in coupling ATP hydrolysis with other biological processes. The uup gene product shares extensive homology with the deduced sequences of two proteins of Haemophilus influenzae. The uup gene is also situated immediately upstream of (and is transcribed in the same direction as) the paraquat-inducible SoxRS-regulated pqi-5 gene, two reported promoters for which are situated within the uup coding sequence.
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PMID:Identification and characterization of ssb and uup mutants with increased frequency of precise excision of transposon Tn10 derivatives: nucleotide sequence of uup in Escherichia coli. 913 5

Toxins that slow ciliary beat are virulence determinants of bacteria that infect or invade ciliated epithelial surfaces. We have previously shown that the effect of the Pseudomonas aeruginosa toxin pyocyanin on ciliary beat is associated with a fall in intracellular cAMP and ATP. We have now investigated whether reduction in intracellular adenosine nucleotides might be a common mechanism of action of other bacterial toxins which slow ciliary beat. Two other P. aeruginosa toxins, 1-hydroxyphenazine (1-HP) and rhamnolipid, and two Haemophilus influenzae fractions produced by gel filtration of broth cultures were tested. The effect on human nasal epithelium ciliary beat frequency (CBF), and intracellular cAMP and ATP were measured, and the effect of two pharmacological agents, dibutyryl cAMP and salmeterol, on these changes was assessed. 1-HP, rhamnolipid and the two H. influenzae fractions slowed CBF before there was significant release of lactate dehydrogenase from the cells. The toxins also caused a fall in intracellular cAMP and ATP. Dibutyryl cAMP and salmeterol at the concentrations used do not increase baseline CBF, but diminished the fall in CBF and intracellular adenosine nucleotides. The cAMP and ATP levels in these studies were combined with those previously obtained with pyocyanin. there was a good correlation between cAMP and ATP levels and CBF. Bacterial toxins which slow CBF may act by causing a fall in intracellular adenosine nucleotides, and agents which stimulate cAMP may prevent toxin-induced slowing of ciliary beat.
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PMID:The effect of bacterial toxins on levels of intracellular adenosine nucleotides and human ciliary beat frequency. 916 Apr 10

Lipopolysaccharide of Haemophilus influenzae contains a single 3-deoxy-D-manno-octulosonic acid (Kdo) residue, linked to the 6' position of lipid A. In Escherichia coli and related organisms, a Kdo disaccharide is attached to lipid A. In previous studies, we cloned the gene (kdtA) encoding the E. coli Kdo transferase and demonstrated that homogeneous preparations of KdtA polypeptide catalyzed the attachment of both Kdo groups to the precursor, lipid IVA. E. coli KdtA produced only traces of mono-glycosylated product. We now show that a single Kdo is transferred to lipid IVA in extracts of H. influenzae. The mono-functional Kdo transferase of H. influenzae is membrane-bound, and the reaction is dependent upon a CMP-Kdo-generating system, as in E. coli. The specific activity of Kdo transfer to lipid IVA is 0.5-1 nmol/min/mg in H. influenzae membranes. Utilizing solubilized H. influenzae membranes, milligram quantities of Kdo-lipid IVA were prepared for analysis. Matrix-assisted laser desorption/ionization mass spectrometry revealed a parent ion (M - H)- at m/z 1626.0, consistent with the addition of a single Kdo moiety. Like lipid IVA, Kdo-lipid IVA was an excellent substrate for the bi-functional Kdo transferase of E. coli. In membranes of H. influenzae, but not E. coli, Kdo-lipid IVA was further phosphorylated in the presence of ATP, yielding a mono-phosphorylated Kdo-lipid IVA with a parent ion (M - H)- at m/z 1703.9. The identification of the mono-functional H. influenzae Kdo transferase, which is encoded by a KdtA homologue that displays 50% identity to its E. coli counterpart, should facilitate the mechanistic dissection of more complex multi-functional Kdo transferases, like those of E. coli and Chlamydia trachomatis.
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PMID:A mono-functional 3-deoxy-D-manno-octulosonic acid (Kdo) transferase and a Kdo kinase in extracts of Haemophilus influenzae. 919 66

The gene that was inferred to encode the TyrR protein of Haemophilus influenzae Rd was synthesized by polymerase chain reaction and inserted into a T7-based expression vector. Methods were developed to overexpress the TyrR protein of H. influenzae in Escherichia coli and to purify the protein on a large scale. Both in vitro and in vivo functional comparisons of the H. influenzae and E. coli TyrR proteins were carried out. The TyrR protein of H. influenzae was able to bind in vitro to an operator target upstream of the aroF-tyrA gene of E. coli. In the presence of [gamma-S]ATP, the DNA binding ability of the H. influenzae TyrR protein was drastically reduced. Despite the much shorter peptide chain length (318 amino acid residues vs 513), the TyrR protein of H. influenzae was as active in repressing the aroF promoter as the TyrR protein of E. coli. Repression by both proteins was enhanced in the presence of tyrosine; however, the transcriptional activation function associated with the TyrR protein of E. coli could not be detected when the H. influenzae TyrR protein was expressed in E. coli. By computer analysis, at least five operator targets for TyrR were identified within the genomic DNA of H. influenzae. These observations show that the assignment of function to the tyrR gene of H. influenzae was correctly made. Further studies of the H. influenzae TyrR protein in comparison to its E. coli counterpart should provide valuable mechanistic information on transcriptional regulation in this system.
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PMID:Expression, purification, and functional analysis of the TyrR protein of Haemophilus influenzae. 922 20

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