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Query: UMLS:C0348321 (
Haemophilus
)
15,372
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A 0.972-kilobase pair DNA fragment from Streptomyces lividans that induces the production of the blue-pigmented antibiotic actinorhodine in S. lividans when cloned on a multicopy plasmid has led to the isolation of a 4-kilobase pair DNA fragment from Streptomyces coelicolor containing homologous sequence. Computer-assisted analysis of the DNA sequence revealed three putative open reading frames (ORFs), ORF1, ORF2, and ORF3. ORF2 extends beyond the sequenced DNA fragment, and its deduced product shares no similarities with any other known proteins in the data bases. ORF3 is also truncated, and its 41-amino acid C-terminal product is identical to the S. coelicolor adenine phosphoribosyltransferase. The 847-amino acid ORF1 protein, with a predicted molecular mass of 94.2 kDa, strongly resembled the relA and spoT gene products from Escherichia coli and the homologs from Vibrio sp. strain S14,
Haemophilus
influenzae, Streptococcus equisimilis H46A, and Mycoplasma genitalium. Unlike these proteins, the ORF1 amino acid sequence analysis revealed the presence of a putative ATP/
GTP
-binding domain. A mutant was generated by deleting most of the ORF1 gene that showed an actinorhodine-nonproducing phenotype, while undecylprodigiosin and the calcium-dependent antibiotic were unaffected. The mutant strain grew at a much lower rate than the wild-type strain, and spore formation was delayed. When the gene was propagated on a low copy number vector, not only was actinorhodine production restored, but actinorhodine and undecylprodigiosin production was enhanced in both the mutant and wild-type and morphological differentiation returned to wild-type characteristics. (p)ppGpp synthetase activity was not detected in purified ribosomes from the ORF1-deleted mutant, while it was restored by complementation of this strain.
...
PMID:A relA/spoT homologous gene from Streptomyces coelicolor A3(2) controls antibiotic biosynthetic genes. 863 67
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.
...
PMID:Frequent oligonucleotides and peptides of the Haemophilus influenzae genome. 893 82
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.
...
PMID:Characterization of an ATP-dependent DNA ligase encoded by Haemophilus influenzae. 906 Apr 31
The DNA sequence encoding the S.NgoI restriction/modification (R/M) system was identified from a gene bank made from Neisseria gonorrhoeae strain WR302 by identifying recombinant plasmids that induced the reporter system in a methylase detection strain AP1-200-9 (Piekarowicz et al., 1991) and were resistant to digestion with NgoI. The DNA sequence was determined from one of these (pUCP30). M.NgoI is a protein of 315 aa with a predicted MW of 35296 Da and R.NgoI is a protein of 350 aa with a predicted MW of 40650 Da. The termination codon of M.NgoI overlapped the start codon of R.NgoI. The same strategy was used to clone the R/M system encoding HaeII from
Haemophilus
aegyptius strain ATCC 11116. The DNA sequence from one clone representing this class (pAP704) was determined. HaeII methylase is a protein of 318 aa with a predicted MW of 35669 Da and R.HaeII contains 352 aa with a predicted MW of 40800 Da. aa alignments between the two methylases indicated that they were 74.3% identical and 79% similar. DNA sequence alignments revealed 68% identity. An aa alignment between the two restriction enzymes indicated that they were 60% identical and 68% similar. DNA sequence alignments revealed 61% identity. The DNA sequences flanking these two systems were identified and used to determine the genomic organization of the two systems. The S.NgoI genes were found between two genes, one with high homology to
GTP
binding proteins of unknown function and one with homology to genes involved in tRNA synthetase synthesis. The HaeII R/M genes were located between two genes, mucF and mucE. The DNA sequence of the HaeII R/M system was compared to the genomic DNA sequence of H. influenzae Rd. Although the DNA sequences flanking the HaeII system were > 99% identical to contiguous DNA fragments found in the genome of H. influenzae Rd, no homology was seen with the DNA sequences encoding the HaeII R/M system, indicating that it is not found in this strain. Given the vast difference in the GC content of S.NgoI and HaeII, their apparent insertion into polycistronic operons, and their difference in codon usage when compared to the species from which they were isolated, the data suggest that these R/M systems originated in an organism other than Neisseria or
Haemophilus
.
...
PMID:Sequence similarities between the genes encoding the S.NgoI and HaeII restriction/modification systems. 962 58
The bacterial protein encoded by the gene ychF is 1 of 11 universally conserved GTPases and the only one whose function is unknown. The crystal structure determination of YchF was sought to help with the functional assignment of the protein. The YchF protein from
Haemophilus
influenzae was cloned and expressed, and the crystal structure was determined at 2.4 A resolution. The polypeptide chain is folded into three domains. The N-terminal domain has a mononucleotide binding fold typical for the P-loop NTPases. An 80-residue domain next to it has a pronounced alpha-helical coiled coil. The C-terminal domain features a six-stranded half-barrel that curves around an alpha-helix. The crablike three-domain structure of YchF suggests the binding site for a double-stranded nucleic acid in the cleft between the domains. The structure of the putative
GTP
-binding site is consistent with the postulated guanine specificity of the protein. Fluorescence measurements have demonstrated the ability of YchF to bind a double-stranded nucleic acid and
GTP
. Taken together with other experimental data and genomic analysis, these results suggest that YchF may be part of a nucleoprotein complex and may function as a
GTP
-dependent translation factor.
...
PMID:Crystal structure of the YchF protein reveals binding sites for GTP and nucleic acid. 1283 76
Carcinoembryonic antigen-related cell adhesion molecules (CEACAMs) are used by several human pathogens to anchor themselves to or invade host cells. Interestingly, human granulocytes express a specific isoform, CEACAM3, that participates together with CEACAM1 and CEACAM6 in the recognition of CEACAM-binding microorganisms. Here we show that CEACAM3 can direct efficient, opsonin-independent phagocytosis of CEACAM-binding Neisseria, Moraxella, and
Haemophilus
species. CEACAM3- but not CEACAM6-mediated uptake is blocked by dominant-negative versions of the small GTPase Rac. Moreover, CEACAM3 engagement triggers membrane recruitment and increased
GTP
loading of Rac that are not observed upon bacterial binding to CEACAM6. Internalization and Rac stimulation are also inhibited by compromising the integrity of an immunoreceptor tyrosine-based activation motif (ITAM)-like sequence in the cytoplasmic tail of CEACAM3 or by interference with Src family protein tyrosine kinases that phosphorylate CEACAM3. In contrast to interfering with CEACAM6, blockage of CEACAM3-mediated events reduces the ability of primary human granulocytes to internalize and eliminate CEACAM-binding bacteria, indicating an important role of CEACAM3 in the control of human-specific pathogens by the innate immune system.
...
PMID:Granulocyte CEACAM3 is a phagocytic receptor of the innate immune system that mediates recognition and elimination of human-specific pathogens. 1470 13
Haemophilus
influenzae and Helicobacter pylori are major bacterial pathogens that face high levels of genotoxic stress within their host. UvrD, a ubiquitous bacterial helicase that plays important roles in multiple DNA metabolic pathways, is essential for genome stability and might, therefore, be crucial in bacterial physiology and pathogenesis. In this study, the functional characterization of UvrD helicase from
Haemophilus
influenzae and Helicobacter pylori is reported. UvrD from
Haemophilus
influenzae (HiUvrD) and Helicobacter pylori (HpUvrD) exhibit strong single-stranded DNA-specific ATPase and 3'-5' helicase activities. Mutation of highly conserved arginine (R288) in HiUvrD and glutamate (E206) in HpUvrD abrogated their activities. Both the proteins were able to bind and unwind a variety of DNA structures including duplexes with strand discontinuities and branches, three- and four-way junctions that underpin their role in DNA replication, repair and recombination. HiUvrD required a minimum of 12 nucleotides, whereas HpUvrD preferred 20 or more nucleotides of 3'-single-stranded DNA tail for efficient unwinding of duplex DNA. Interestingly, HpUvrD was able to hydrolyze and utilize
GTP
for its helicase activity although not as effectively as ATP, which has not been reported to date for UvrD characterized from other organisms. HiUvrD and HpUvrD were found to exist predominantly as monomers in solution together with multimeric forms. Noticeably, deletion of distal C-terminal 48 amino acid residues disrupted the oligomerization of HiUvrD, whereas deletion of 63 amino acids from C-terminus of HpUvrD had no effect on its oligomerization. This study presents the characteristic features and comparative analysis of
Haemophilus
influenzae and Helicobacter pylori UvrD, and constitutes the basis for understanding the role of UvrD in the biology and virulence of these pathogens.
...
PMID:Functional characterization of UvrD helicases from Haemophilus influenzae and Helicobacter pylori. 2250 May 16
