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)

Competent Haemophilus influenzae bacteria were exposed to purified phage HP1 DNA and then plated for transfectants (PFU). When 32% (final concentration) glycerol was added before plating, between 10- and 100-fold more transfectants were observed. Glycerol had no significant effect on transfection with DNA from single or tandem double lysogens. It also had little effect on transformation with chromosomal DNA or on transformation of defective HP1 lysogens with phage HP1 DNA. It was concluded that glycerol induced the release of adsorbed linear double-stranded DNA into the interior of the cells.
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PMID:Effect of glycerol on Haemophilus influenzae transfection. 348 28

Haemophilus influenzae cultures doubly lysogenic for defective phage HP1, with a prophage marker sequence +b+/a+c, always contained some free wild-type phage. Single ultraviolet-irradiated cells produced either no wild-type phage or large numbers of them. This suggested that the phage was not released by the original double lysogen but by internal recombinants, i.e., by double lysogens with altered prophage marker sequence such as +++/abc or +b+/++c. Thirty-one wild-type phage-producing clones have been isolated independently from cultures of this double lysogen and identified. They fell in five classes. Two classes, still possessing all three prophage markers, can be explained by Campbell's (1963) prophage recombination model. The other classes had lost one or more markers. They can be explained by interchromosomal double-strand DNA breakage and rejoining. A single-DNA-strand gene conversion model is discussed in view of the fact that genetic transformation involves single-DNA-strand exchanges. A number of potentially interesting mutants has been analyzed of which only the derivatives of rec1 mutant DB117 (obtained from Dr. J. Setlow) were incapable of internal recombination.
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PMID:Chromosomal recombination in Haemophilus influenzae. 453 99

Rapidly growing Haemophilus influenzae strain Rd bacteria were infected with bacteriophage HP1 and DNA extracts prepared at various times thereafter. A number of phage genes scattered along the entire phage genome were quantitatively assayed by transformation. The kinetics of activity increases of these genes suggests that phage HP1 DNA replication begins at a fixed origin about one-quarter from the right end and that it proceeds to the left.
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PMID:Origin and direction of Haemophilus bacteriophage HP1 DNA replication. 454 61

Competent bacteria of Haemophilus influenzae strain Rd were exposed to various kinds of radioactive deoxyribonucleic acid (DNA) for short periods of time and at relatively low temperature. The fate of phage HP1 DNA was studied most extensively. Adsorbed DNA was partially acid solubilized by lysogens and by nonlysogens with very similar kinetics. The biological activity of the DNA decreased extensively in both lysogenic and nonlysogenic recipients. 2,4-Dinitrophenol had no effect on the acid solubilization but largely abolished the biological inactivation. Inactivation kinetics for three different markers and for the triple combination were roughly the same. The presence of 2,4-dinitrophenol in the medium, or the HP1 prophage in the chromosome, did not alter this observation. This suggests that acid solubilization involves the destruction of whole DNA molecules. In view of the absence of DNA homology between phage and host, it is concluded that acid-soluble breakdown of adsorbed transforming DNA is not an integral part of the donor DNA integration process. Behavior of mutant bacteria indicates that neither exonuclease III nor exonuclease V is involved.
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PMID:Acid-soluble breakdown of homologous deoxyribbonucleic acid adsorbed by Haemophilus influenzae: its biological significance. 454 63

Superinfection of growing (nontransformable) cells of defectively lysogenic strains of Haemophilus influenzae with wild-type or with mutant phage HP1 resulted in a number of double lysogens and a small number of monolysogens with altered prophage. The double lysogens were identified by analysis of their monolysogenic segregants and by examining their deoxyribonucleic acid in certain test crosses. The results indicate that the majority had been formed by insertion of the infecting phage genome within the resident prophage. Superinfection of transformable bacteria gave rise to cells with altered prophages (presumably transformants) and to double lysogens which had gained or lost wild-type prophage loci.
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PMID:Influence of transformability on the formation of superinfection double lysogens in Haemophilus influenzae. 554 25

Seven mutants of Haemophilus influenzae strain Rd (mmsA-) have been isolated that are more sensitive to methyl methane sulfonate (mms) than recombination-deficient (recA-) mutants. The mutations cotransformed about 25% with the strA locus while the five studied clustered tightly; they are all probably allelic. The mutants are not sensitive to ultraviolet radiation, X-rays, or nitrous acid. Mms-damaged phage HP1 plated very inefficiently on these mutants, indicating that they lack the first step in the excision repair of the lesion N3-methyladenine (m3A). Incubation of damaged phage at 30 degrees C in the absence of mms resulted in a steady decline of viability when the phage were plated on the wild mmsA+ host but an initial steep rise was seen when it was plated on an mmsA- mutant. The rise is explained by the assumption that m3A lesions hydrolyzed off the DNA giving rise to repairable apurinic sites by both the mmsA+ and mmsA- hosts. No decline in viability was observed when hydroxylamine was present in the medium. This compound is known to prevent or slow down beta-elimination. The delayed decline in viability is therefore explained by assuming that apurinic sites give rise to beta-elimination-induced single strand breaks in the phage DNA that cannot be repaired by either host. Marker rescue experiments indicated that these breaks did not interrupt injection of phage DNA.
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PMID:Repair of methyl methane sulfonate-damaged phage by Haemophilus influenzae. 660 66

Whole phages HP1 and HP3, vegetative-phage deoxyribonucleic acid (DNA), and single and tandem double prophage DNA were exposed to ultraviolet radiation and then assayed on a wild-type (DNA repair-proficient) Haemophilus influenzae Rd strain and on a repair-deficient uvr-1 strain. Host cell reactivation (DNA repair) was observed for whole-phage and vegetative-phage DNA but not for single and double prophage DNA. Competent (phage-resistant) Haemophilus parainfluenzae cells were normally transfected with H. influenzae-grown phage DNA and with tandem double prophage DNA but not at all with single prophage DNA. CaCl2-treated H. influenzae suspensions could be transfected with vegetative phage DNA and with double prophage DNA but not with single prophage DNA. These observations support the hypothesis that transfection with single prophage DNA occurs through prophage DNA single-strand insertion into the recipient chromosome (at the bacterial att site) followed by DNA replication and then prophage induction.
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PMID:Mechanism of Haemophilus influenzae transfection by single and double prophage deoxyribonucleic acid. 696 55

A complete EcoRI digest of Haemophilus influenzae phage HP1 deoxyribonucleic acid (DNA) was mixed with incomplete digests of various H. influenzae R plasmids, sealed with T4 ligase, and transformed into an HP1 lysogen. Most of the chloramphenicol- and tetracycline-resistant transformants did not produce phage although they possessed all the phage genes examined. They also did not transfer antibiotic resistance by conjugation. DNA lysates from them transformed other lysogens to resistance and to loss of phage production at different but quite high frequencies (addition of long DNA segments). They themselves could be transformed efficiently to strains with a wild prophage (deletion of long DNA segments). It was concluded that lysogenic cultures had been constructed with various DNA inserts in their prophages carrying antibiotic resistance genes from the R plasmids. The site of insertion was determined by genetic crosses. DNAs with inserts that transferred with lower efficiency were more sensitive to ultraviolet radiation. This supports the view that insert transfer efficiencies reflect the sizes of the insert.
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PMID:Addition, deletion, and substitution of long nonhomologous deoxyribonucleic acid segments by genetic transformation of Haemophilus influenzae. 697 73

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


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