Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The specific DNA-binding protein integration host factor (IHF) of Escherichia coli stimulates the site-specific recombination reaction between the attP site of bacteriophage HP1 and the attB site of its host, Haemophilus influenzae, in vitro and also appears to regulate the expression of HP1 integrase. IHF interacts specifically with DNA segments containing the att sites and the integrase regulatory region, as judged by IHF-dependent retardation of relevant DNA fragments during gel electrophoresis. The locations of the protein-binding sites were identified by DNase I protection experiments. Three sites in the HP1 attP region bound IHF, two binding sites were present in the vicinity of the attB region, and one region containing three partially overlapping sites was present in the HP1 integrase regulatory segment. The binding sites defined in these experiments all contained sequences which matched the consensus IHF binding sequences first identified in the lambda attP region. An activity which stimulated the HP1 site-specific integration reaction was found in extracts of H. influenzae, suggesting that an IHF-like protein is present in this organism.
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PMID:Interaction of integration host factor from Escherichia coli with the integration region of the Haemophilus influenzae bacteriophage HP1. 220 32

The nucleotide sequence of the leftmost 2,363 base pairs of the HP1 genome, which includes the attachment site (attP) and the integration region, was determined. This sequence contained an open reading frame encoding a 337-residue polypeptide, which is a member of the integrase family of site-specific recombination proteins as judged by sequence comparison. The open reading frame was located immediately adjacent to the att site and was oriented so that initiation of translation would begin distal to the att site and end in its immediate vicinity. Expression of this DNA segment in Escherichia coli provided extracts which promoted site-specific recombination between plasmids containing cloned HP1 attP and Haemophilus influenzae attB sites. This recombination was directional, since no reaction was observed between plasmids containing attR and attL sites. The reaction was stimulated by the accessory protein integration host factor of E. coli. Evidence was also obtained that the integration host factor influenced the levels of HP1 integrase expression. The deduced amino acid sequence of HP1 integrase has remarkable similarity to that deduced for the integrase of coliphage 186.
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PMID:Nucleotide sequence and expression of the gene for the site-specific integration protein from bacteriophage HP1 of Haemophilus influenzae. 254 15

Plasmids were constructed which contain both attP and attB DNA segments derived from the insertion sites of the lysogenic bacteriophage HP1 and its host, Haemophilus influenzae. Similar plasmids containing the two junction segments (attL and attR regions) between the phage genome and the lysogenic host chromosome were also prepared. The formation of recombinant dimer plasmids was observed when attP-attB plasmids were propagated in Escherichia coli HB101 (recA), while plasmids containing the junction segments did not form recombinant dimers. Deletion of the phage DNA segment adjacent to the attP site from the attP-attB constructions eliminated detectable recombination, suggesting that this sequence contains the gene encoding the HP1 integrase. No plasmid recombination was observed in strains of E. coli defective in integration host factor. This suggests that integration host factor is important in the expression or activity of the system which produces the site-specific recombination of sequences derived from HP1 and H. influenzae. Further, it suggests that a protein functionally analogous to E. coli integration host factor may be present in H. influenzae.
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PMID:Site-specific recombination between cloned attP and attB sites from the Haemophilus influenzae bacteriophage HP1 propagated in recombination-deficient Escherichia coli. 264 98

Transposon insertion mutagenesis and transformation were used to locate genes responsible for excision in the temperature phage HP1 of Haemophilus influenzae. A 6.5 kb segment of DNA near the left end of the phage genome was sequenced, and 11 new open reading frames were identified. Two face-to-face overlapping promoter sequences organized these open reading frames into two operons transcribed in opposite directions. Interruption of the first open reading frame in the rightward operon created lysogens unable to produce phages. Provision of the uninterrupted open reading frame in trans restored phage production. The gene identified by this procedure, cox, was cloned and the protein product was expressed at high levels in Escherichia coli. The Cox protein is a 79-residue basic protein with a predicted strong helix-turn-helix DNA-binding motif. Extracts induced to express high levels of Cox contained a 9 kDa protein. These extracts inhibited integrative recombination and were required for excisive recombination mediated by HP1 integrase. The HP1 cox gene location is similar to that of the homologous excisive and regulatory genes from coliphages P2 and 186. These phages appear to share a distinctive organization of recombination proteins and transcriptional domains differing markedly from phage lambda and its relatives.
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PMID:Identification of an HP1 phage protein required for site-specific excision. 799 80

The temperate phage HP1 integrates its genome into the chromosome of Haemophilus influenzae by site-specific recombination between host and phage DNA segments, the attachment sites. This reaction is promoted by the HP1-encoded integrase. The interactions of HP1 integrase with its DNA substrates have been characterized by DNase I footprinting. Two classes of binding sites were identified. At sites of type I, integrase binding almost completely eliminated cleavage by DNase I; type I sites shared the consensus sequence 5'-AGGGATTTWW. At type II sites, integrase binding produced alternating regions of protection from and enhancement of cleavage, suggesting that binding at these sites distorted the DNA. The consensus sequence for type II sites was 5'-ACTGGCGRTW. Each binding site contained two copies of the relevant consensus. The host attachment site (attB) contains an inverted pair of type I consensus sequences surrounding the strand exchange points. The phage attachment site (attP) includes six binding sites, three of type I and three of type II, distributed along its 500 nucleotide pairs. All type I sites contain two consensus motifs arranged as inverted repeats. One of these surrounds the strand exchange points in this substrate, one is located internally, and the third coincides with the right boundary of the attP sequence. One type II site, consisting of an inverted repeat of two type II consensus motifs, coincides with the left boundary of the attP sequence. The other two type II sites contain directly repeated pairs of the consensus and are internally located.
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PMID:Binding sites for bacteriophage HP1 integrase on its DNA substrates. 806 59

The integrase encoded by the temperate phage HP1 promotes the site-specific recombination between DNA sites on its genome (the attP site) and on the genome of the host Haemophilus influenzae (the attB site). The protein has been overproduced in Escherichia coli, and purified to apparent homogeneity. HP1 integrase promotes recombination of supercoiled attP-containing molecules with linear segments with attB sites. Reaction was enhanced by spermidine and by the bacterial DNA-bending protein integration host factor. The rate of recombination showed complex and related dependence upon the integrase concentration and the concentration of the supercoiled attP substrate. These relationships probably originate from the need to assemble a multi-protein complex on the attP DNA. The reaction promoted by HP1 integrase produced a four-stranded initial reaction product in which one pair of DNA strands had undergone transfer while the other pair remained intact. This four-stranded component was produced more rapidly than any product, and its steady-state level was proportional to the overall rate of reaction. This component had the kinetic and structural properties of an intermediate in the recombination reaction. The existence of this intermediate was used to determine that the two strand exchanges required for recombination of the duplex substrates proceed in a defined order.
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PMID:Purification and characterization of the integrase from the Haemophilus influenzae bacteriophage HP1; identification of a four-stranded intermediate and the order of strand exchange. 884 41

The protein that activates site-specific excision of the HP1 genome from the Hemophilus influenzae chromosome, HP1 Cox, was purified. Native Cox consists of four 8.9-kDa protomers. Tetrameric Cox self-associates to octamers; the apparent dissociation constant was 8 microM protomer, suggesting that under reaction conditions Cox is largely tetrameric. Cox binding sites consist of two direct repeats of the consensus motif 5'-GGTMAWWWWA; one Cox tetramer binds to each motif. Cox binding interfered with the interaction of HP1 integrase with one of its binding sites, IBS5. This competition is central to directional control, as shown by studies on mutated sites. Both Cox binding sites were necessary for Cox to fully inhibit integration and activate excision, although Cox continued to affect recombination when the single binding site proximal to IBS5 remained intact. Eliminating the IBS5 site completely prevented integration but greatly enhanced excision. Excisive recombination continued to require Cox even when IBS5 was inactivated. Cox must therefore play a positive role in assembling the nucleoprotein complexes producing excisive recombination, by inducing the formation of a critical conformation in those complexes.
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PMID:Purification and characterization of HP1 Cox and definition of its role in controlling the direction of site-specific recombination. 907 98

HP1 integrase promotes site-specific recombination of the HP1 genome into that of Haemophilus influenzae. The isolated C-terminal domain (residues 165-337) of the protein interacts with the recombination site and contains the four catalytic residues conserved in the integrase family. This domain represents a novel fold consisting principally of well-packed alpha helices, a surface beta sheet, and an ordered 17-residue C-terminal tail. The conserved triad of basic residues and the active-site tyrosine are contributed by a single monomer and occupy fixed positions in a defined active-site cleft. Dimers are formed by mutual interactions of the tail of one monomer with an adjacent monomer; this orients active-site clefts antiparallel to each other.
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PMID:Molecular organization in site-specific recombination: the catalytic domain of bacteriophage HP1 integrase at 2.7 A resolution. 910 78

Comparison of the nucleotide sequences of the left arms of two Haemophilus influenzae phages, S2 and HP1 is presented. They exhibit a characteristic mosaic pattern of homologous and non-homologous regions. The homology extends over the attP site and int, orf 5 to 9, rep and the 3' part of cI genes. Two major non-homologous regions were detected. One is found between the int and cI genes; the other spans the region of promoters and the cox gene. Variations in the region of the promotors which is involved in the choice between a lysogenic and a lytic pathway and some divergences in the cI coding sequences are probably responsible for the observed immunity differences between the two phages. Distinctions in the distribution of consensus sequences for an integration host factor (IHF) and integrase-binding sites and promoters are described. These data offer an explanation of the relationship between three types of S2/HP1 phages. It allows in turn a final settlement of the nomenclature variation in the literature. The results presented, which are similar to those obtained for other phage groups, suggest that the mosaic structure of phage genomes is a normal outcome of phage divergence.
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PMID:The relationship between HP1 and S2 bacteriophages of Haemophilus influenzae. 932 51

Presented data demonstrate that both HP1c1 and S2 bacteriophages of Haemophilus influenzae can use two related attB sites on the host chromosome. The first indication comes from the analysis of the whole genome sequence of H. influenzae Rd in which a second region of nucleotide sequence identical with the known attB site was detected. The location of both attB sites agrees with results of earlier field-inversion gel electrophoresis (FIGE) analysis of S2 and HP1c1 lysogens of H. influenzae. Functionality of cloned attB sites in the integration process of both phages was confirmed using in vivo integrase-dependent recombination system in Escherichia coli. Presented results seem to extend previously described similarities between S2 and HP1c1 phages.
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PMID:Identification of the second attachment site for HP1 and S2 bacteriophages in Haemophilus influenzae genome. 969 28


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