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92 results on '"Haemophilus influenzae radiation effects"'

1. Long-term survival of Streptococcus pneumoniae, Haemophilus influenzae and Moraxella catarrhalis as isolates and in nasopharyngeal specimens in frozen STGG storage medium.

Author

Kaijalainen T and Palmu A

Subjects
Bacteriological Techniques, Culture Media chemistry, Haemophilus influenzae radiation effects, Moraxella catarrhalis radiation effects, Streptococcus pneumoniae radiation effects, Time Factors, Freezing, Haemophilus influenzae physiology, Microbial Viability radiation effects, Moraxella catarrhalis physiology, Nasopharynx microbiology, Specimen Handling, Streptococcus pneumoniae physiology
Abstract

We evaluated survival in WHO-recommended STGG storage medium of bacteria causing respiratory-tract infection. Streptococcus pneumoniae and Moraxella catarrhalis survived as single and mixed isolates stored at -70°C for 12.5 years, but Haemophilus influenzae less than 4 years. All the bacteria survived in the nasopharyngeal specimens at -70°C for 11 years., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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2. Effect of C-terminal 44 amino acids deletion on activity of Haemophilus influenzae UvrA protein.

Author

Kulkarni AS, Khalap N, and Joshi VP

Subjects
Adenosine Triphosphatases chemistry, Adenosine Triphosphatases genetics, Adenosine Triphosphatases metabolism, Bacterial Proteins chemistry, Base Sequence, Cloning, Molecular, DNA Repair, DNA, Bacterial genetics, DNA, Bacterial metabolism, DNA-Binding Proteins chemistry, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Escherichia coli genetics, Escherichia coli metabolism, Escherichia coli Proteins genetics, Escherichia coli Proteins metabolism, Genes, Bacterial, Genetic Complementation Test, Haemophilus influenzae radiation effects, Molecular Weight, Radiation Tolerance, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Sequence Deletion, Ultraviolet Rays, Bacterial Proteins genetics, Bacterial Proteins metabolism, Haemophilus influenzae genetics, Haemophilus influenzae metabolism
Abstract

UV-sensitive mutant strain of Haemophilus influenzae Rd MBH3, is 20 times more sensitive to UV irradiation than the wild type strain. The mutation responsible for increased UV sensitivity of the strain was identified as G --> A transition predicting synthesis of truncated UvrAdeltaC44 protein (Balsara & Joshi). Recombinant UvrAdeltaC44 protein was purified for the first time under denaturing conditions. The molecular weight of the recombinant protein was estimated as approximately100 kDa. Recombinant UvrAdeltaC44 protein was found to be less efficient in its ATPase and DNA binding activity as compared to the wild type protein. Recombinant plasmid carrying uvrAdeltaC44 gene could partially complement the UvrA deficiency in E. coli UvrA mutant.

Published
2006

3. MucA protein affects spontaneous mutation in a localized region of Haemophilus influenzae.

Author

Setlow JK, Haines D, and Cabrera-Juárez E

Subjects
Bacterial Proteins genetics, Bacteriophages genetics, Bacteriophages radiation effects, Chromosome Mapping, Chromosomes, Bacterial genetics, DNA Topoisomerases, Type II genetics, DNA, Superhelical genetics, Dose-Response Relationship, Radiation, Drug Resistance, Microbial genetics, Gene Order, Genetic Linkage, Haemophilus influenzae drug effects, Haemophilus influenzae radiation effects, Kanamycin Resistance genetics, Mutation, Novobiocin pharmacology, Plasmids drug effects, Plasmids genetics, Plasmids radiation effects, Recombination, Genetic radiation effects, Ultraviolet Rays, Bacterial Proteins physiology, DNA, Bacterial genetics, Haemophilus influenzae genetics
Abstract

A plasmid called pMucA, from a piece of the plasmid pKM101 (Mol. Gen. Genet 167 (1979) 317) cloned in the vector pDM2 (J. Bacteriol. 151 (1982) 1605), caused higher mutation in a local region of Haemophilus influenzae and caused even more mutation there in a strain also containing novC, the latter causing an increase in supercoiling (J. Bacteriol 164 (1985) 525). The novD mutation depressed supercoiling, and also depressed the mutation by pMucA in the local region of the chromosome. Thus, it is clear that supercoiling is an important phenomenon in spontaneous mutation of H. influenzae. The pMucA plasmid caused a number of other phenomena in H. influenzae, induced UV mutation (Proc. Natl. Acad. Sci. USA 82 (1985) 7753), decreased UV sensitivity of transforming DNA, but not cells, and UV-induced recombination of mutants of phage HP1c1. The effect of the MucA protein in mutagenesis of H. influenzae we consider to be due to the introduction of some of the E. coli functions from pKM101. We postulate that the localized mutation caused by the MucA plasmid also involved localization of the plasmid or its coded protein in the same area, resulting from binding to a homologous gene, probably rec-1, very close to the localized region.

Published
2001
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4. Gene HI1472 of Haemophilus influenzae Rd is a novel gene involved in DNA repair.

Author

Kowtal PK and Joshi VP

Subjects
Base Sequence, Chromosome Mapping, Cloning, Molecular, DNA Repair genetics, DNA, Bacterial genetics, Haemophilus influenzae radiation effects, Molecular Sequence Data, Genes, Bacterial, Haemophilus influenzae genetics
Abstract

A chimeric plasmid, pJPuvr4, consists of a 16.7 kbp Haemophilus influenzae Rd chromosomal DNA insert at the EcoRI site of vector pJ1-8. This plasmid complements the UV and gamma ray sensitivity of the mutant strain MBH4. This plasmid carries the wild type allele of gene uvr4 which was localised to a 3.8 kbp DraI fragment, with an internal EcoRI site. Partial sequencing of the gene and its alignment with the published genome sequence of H. influenzae Rd revealed uvr4 to be HI1472. HI1472 is a putatively identified open reading frame (ORF), which has been assigned no function so far. The partial sequence did show nt database match with 3D exon of N cadherin gene of homosepians and moaA gene of H. influenzae. Cadherins are involved in cell adhesion, cell to cell contact and morphogenesis in homosepians and moaA gene codes for molybdenum biosynthesis subunitA. This report implicates HI1472 of Haemophilus influenzae Rd in DNA repair. Nucleotide sequence obtained for the gene uvr4 was compared with the published sequence of gene HI1472. A wild type strain variation was observed at the 592nd nucleotide position corresponding to a change from aspartic acid to threonine.

Published
1999

5. Isolation and characterization of the Haemophilus influenzae uvrA gene.

Author

de la Morena ML, Hendrixson DR, and St Geme JW 3rd

Subjects
Amino Acid Sequence, Base Sequence, Cloning, Molecular, DNA Repair, DNA, Bacterial, Genetic Complementation Test, Haemophilus influenzae enzymology, Haemophilus influenzae radiation effects, Molecular Sequence Data, Sequence Homology, Amino Acid, Ultraviolet Rays, Adenosine Triphosphatases genetics, Bacterial Proteins genetics, DNA-Binding Proteins genetics, Escherichia coli Proteins, Genes, Bacterial, Haemophilus influenzae genetics
Abstract

The uvrA gene Haemophilus influenzae (Hi) was cloned and sequenced. Analysis of the deduced amino acid sequence revealed 81% identity and 90% similarity with the Escherichia coli UvrA protein. Consistent with a role of Hi uvrA in DNA repair, a Hi uvrA mutant exhibited increased sensitivity of UV irradiation. Furthermore, Hi uvrA was able to complement a mutation in the E. coli uvrA locus.

Published
1996
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6. Structural organization, nucleotide sequence, and regulation of the Haemophilus influenzae rec-1+ gene.

Author

Zulty JJ and Barcak GJ

Subjects
Amino Acid Sequence, Bacterial Proteins biosynthesis, Base Sequence, Cloning, Molecular, DNA Primers, DNA Repair, DNA, Bacterial biosynthesis, DNA, Bacterial metabolism, Escherichia coli genetics, Gene Expression Regulation, Bacterial, Haemophilus influenzae metabolism, Haemophilus influenzae radiation effects, Molecular Sequence Data, Plasmids, Promoter Regions, Genetic, Recombination, Genetic, Restriction Mapping, SOS Response, Genetics genetics, Transcription, Genetic, Ultraviolet Rays, Bacterial Proteins genetics, DNA-Binding Proteins, Genes, Bacterial, Haemophilus influenzae genetics
Abstract

The Haemophilus influenzae rec-1+ protein plays a central role in DNA metabolism, participating in general homologous recombination, recombinational (postreplication) DNA repair, and prophage induction. Although many H. influenzae rec-1 mutants have been phenotypically characterized, little is known about the rec-1+ gene at the molecular level. In this study, we present the genetic organization of the rec-1+ locus, the DNA sequence of rec-1+, and studies of the transcriptional regulation of rec-1+ during cellular assault by DNA-damaging agents and during the induction of competence for genetic transformation. Although little is known about promoter structure in H. influenzae, we identified a potential rec-1+ promoter that is identical in 11 of 12 positions to the bacterial sigma 70-dependent promoter consensus sequence. Results from a primer extension analysis revealed that the start site of rec-1+ transcription is centered 6 nucleotides downstream of this promoter. We identified potential DNA binding sites in the rec-1+ gene for LexA, integration host factor, and cyclic AMP receptor protein. We obtained evidence that at least one of the proposed cyclic AMP receptor protein binding sites is active in modulating rec-1+ transcription. This finding makes rec-1+ control circuitry novel among recA+ homologs. Two H. influenzae DNA uptake sequences that may function as a transcription termination signal were identified in inverted orientations at the end of the rec-1+ coding sequence. In addition, we report the first use of the Escherichia coli lacZ operon fusion technique in H. influenzae to study the transcriptional control of rec-1+. Our results indicate that rec-1+ is transcriptionally induced about threefold during DNA-damaging events. Furthermore, we show that rec-1+ can substitute for recA+ in E. coli to modulate SOS induction of dinB1 expression. Surprisingly, although 5% of the H. influenzae genome is in the form of single-stranded DNA during competence for genetic transformation, an event that could be a potent SOS-inducing signal, we failed to detect significant changes in rec-1+ transcription during the induction of genetic competence.

Published
1993
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7. Cloning and characterization of the Haemophilus influenzae mutB gene.

Author

Stuy JH and Walter RB

Subjects
Adenosine Triphosphatases genetics, Cloning, Molecular, DNA Damage, DNA Helicases genetics, Escherichia coli genetics, Escherichia coli Proteins, Genetic Complementation Test, Haemophilus influenzae radiation effects, Recombinant Proteins, Ultraviolet Rays, Bacterial Proteins genetics, DNA Glycosylases, DNA Repair genetics, Genes, Bacterial genetics, Haemophilus influenzae genetics, N-Glycosyl Hydrolases
Abstract

The Haemophilus influenzae mutB+ gene complements Escherichia coli uvrD mutants. The E. coli uvrD+ gene complements H. influenzae mutB1 mutants.

Published
1993
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8. [Lack of foto reactivation of the Haemophilus influenzae transforming DNA mutated with near ultraviolet light (325-400nm)].

Author

Alarcón-Hernández E and Cabrera-Juárez E

Subjects
Deoxyribodipyrimidine Photo-Lyase isolation & purification, Deoxyribodipyrimidine Photo-Lyase metabolism, Fungal Proteins isolation & purification, Fungal Proteins metabolism, Haemophilus influenzae radiation effects, Mutagenesis, Pyrimidine Dimers chemistry, Saccharomyces cerevisiae enzymology, DNA Damage, DNA Repair, DNA, Bacterial radiation effects, Haemophilus influenzae genetics, Transformation, Bacterial radiation effects, Ultraviolet Rays
Abstract

Three extracts from Saccharomyces cerevisiae were obtained by salting out with ammonium sulfate, these were I-G, EFRL-II-G and III-G. Fraction EFRL-II-G showed the highest photoreactivating activity on DNA str2000 irradiated with far UV light. However, the same fraction did not reactivate DNA str2000 previously inactivated by near UV irradiation. We think that the inactivation by near-UV was not due to photochemically-formed pyrimidine dimers. Decrease in spontaneous mutation frequency of cells transformed with DNA str2000 irradiated with near-UV light, was the same with the DNA treated with active or heat inactivated EFRL-II-G, therefore we may conclude that DNA lesions responsible for the effect are difference to pyrimidine dimers.

Published
1993

9. The phototoxicity of 8-methoxythionepsoralen and 6-methylthionecoumarin.

Author

Tuveson RW, Wang GR, and Becker RS

Subjects
Coumarins chemical synthesis, DNA, Bacterial drug effects, DNA, Bacterial radiation effects, Dose-Response Relationship, Radiation, Escherichia coli genetics, Escherichia coli radiation effects, Haemophilus influenzae radiation effects, Methoxsalen chemical synthesis, Methoxsalen pharmacology, Plasmids drug effects, Plasmids radiation effects, Thiones chemical synthesis, Trioxsalen pharmacology, Coumarins pharmacology, Escherichia coli drug effects, Haemophilus influenzae drug effects, Methoxsalen analogs & derivatives, Photosensitizing Agents pharmacology, Thiones pharmacology, Ultraviolet Rays
Abstract

The phototoxicity of 8-methoxythionepsoralen (8-MOTP) and 6-methylthione coumarin (6-MTC) when activated by UV-A has been investigated using a variety of Escherichia coli strains, Haemophilus influenzae transforming DNA and Escherichia coli pBR322 plasmid DNA. The results demonstrate that 8-MOTP is a strictly oxygen independent photosensitizer that is about 500-fold less efficient in forming lesions leading to equivalent lethality than is the parent compound from which it is derived (8-MOP). As is true for 8-MOP, 8-MOTP is capable of inducing histidine independent mutations in E. coli and inactivating transforming DNA consistent with DNA being a target for lesions induced by this molecule in the presence of UV-A. 6-MTC is a strongly oxygen dependent photosensitizer activated by UV-A when tested with either E. coli cells or transforming DNA in contrast to the parent compound (6-methylcoumarin; 6-MC) which is not phototoxic when treated with UV-A. These results imply that the membrane may be an important target leading to lethality. 6-MTC in the presence of UV-A can inactivate pBR322 plasmid and Haemophilus influenzae transforming DNA activity in vitro suggesting that DNA is a potential target for this molecule when activated by UV-A.

Published
1992
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10. Ferric-ion-photosensitized damage to DNA by hydroxyl and non-hydroxyl radical mechanisms.

Author

Larson RA, Lloyd RE, Marley KA, and Tuveson RW

Subjects
DNA, Bacterial radiation effects, Escherichia coli drug effects, Escherichia coli radiation effects, Free Radicals, Haemophilus influenzae drug effects, Haemophilus influenzae radiation effects, Plasmids drug effects, Plasmids radiation effects, DNA Damage, DNA, Bacterial drug effects, Escherichia coli genetics, Haemophilus influenzae genetics, Iron pharmacology, Radiation-Sensitizing Agents pharmacology, Ultraviolet Rays
Abstract

Iron(III) and UVA (320-400 nm) light strongly diminished the transforming activity of Haemophilus influenzae DNA in the presence of oxygen. Iron(III) alone in the absence of light had no measurable effect on the transforming activity. The chelating agent ethylenediaminetetraacetic acid (EDTA) conferred virtually complete protection, but hydroxyl radical scavengers (mannitol, methanol, ethanol, isopropanol and dimethyl sulfoxide) inhibited only a small fraction of the inactivation. Treatment of plasmid DNA (pBR322) with iron(III) results in the conversion of the covalently closed circular form of the plasmid to open circles and ultimately to the linear form. Concomitant with the alteration in the conformation of the plasmid, the ability to transform Escherichia coli was reduced. In model systems, iron(III) photoreacted with the DNA backbone causing nicking and double-strand breakage. The results are consistent with a mechanism involving a preliminary complexation of iron(III) by DNA followed by the generation of reactive free radicals other than .OH. We suggest that bound iron, or other UV-absorbing transition metal complexes, may be chromophores capable of causing DNA damage in the long-wave near-UV region.

Published
1992
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11. In vitro mutation of Haemophilus influenzae transforming deoxyribonucleic acid by ultraviolet radiation at -70 degrees C.

Author

Muñoz-Sánchez JL and Cabrera-Juárez E

Subjects
Cold Temperature, Deoxyribonucleases pharmacology, Drug Resistance, Microbial genetics, Haemophilus influenzae genetics, Novobiocin pharmacology, Sonication, Spores, Bacterial, Thymine analogs & derivatives, Thymine metabolism, DNA, Bacterial genetics, Haemophilus influenzae radiation effects, Mutagenesis, Transformation, Bacterial, Ultraviolet Rays
Abstract

Previous studies have shown the non-mutability of Haemophilus influenzae either by UV irradiation of the cells or by irradiating the transforming DNA and transformation of competent cells. In the present work, we present evidence of transforming DNA mutation in vitro by UV irradiation at -70 degrees C, which upon transformation of competent cells showed a rise in the mutation frequencies of novobiocin resistance of the order of several hundredfold. Also we performed experiments using the UV-irradiated DNA either sonicated or DNase-treated, which allowed us to propose that such rise in mutation frequency is probably due to the integration of DNA carrying premutagenic photoproducts to the recipient cells' genome. We think that the key point was the low temperature at which the DNA was irradiated in order to obtain the mutagenic effects, since it is likely that at -70 degrees C, the main photoproducts are not the cyclobutane dimers, but are the spore photoproducts, which are probably responsible for the damage that leads to mutagenic effects.

Published
1991
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12. Lethal and mutagenic action of hydrogen peroxide on Haemophilus influenzae.

Author

Sánchez-Rincón DA and Cabrera-Juárez E

Subjects
Drug Resistance, Microbial genetics, Haemophilus influenzae genetics, Haemophilus influenzae radiation effects, Mutagenicity Tests, Mutation genetics, Protoporphyrins pharmacology, Recombination, Genetic genetics, Streptomycin pharmacology, Haemophilus influenzae drug effects, Hydrogen Peroxide toxicity, Mutagens toxicity
Abstract

The lethal and mutagenic effects of H2O2 on wild-type Haemophilus influenzae Rd and on uvr1, uvr2, rec1, and rec2 mutant strains were studied. The first two mutants are sensitive to UV, and the second two are defective in recombination. Rd, urv1, and rec1 strains were more sensitive to the killing effect of H2O2 treatment than were uvr2 and rec2 strains. There were peaks of mutagenesis at two H2O2 concentrations over a range of 30 to 275 mM. Our results suggest a specific repair of H2O2 damage that is independent of the Uvr2 and Rec2 gene products. Sensitivity to the killing effect of H2O2 and to the lethal action of near-UV light were similar for Rd and uvr1 strains. This finding suggests that the mechanisms of killing by and repair of H2O2 damage may have some overlap with those of near-UV radiation.

Published
1991
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13. Mutagenic and lethal action of polychromatic near-ultraviolet (325-400 nm) on Haemophilus influenzae in the presence of nitrogen.

Author

Cabrera-Juárez E and Espinosa-Lara M

Subjects
Drug Resistance, Microbial, Haemophilus influenzae genetics, Haemophilus influenzae metabolism, Mutagenicity Tests, Novobiocin metabolism, Haemophilus influenzae radiation effects, Ultraviolet Rays
Abstract

The lethal effect of polychromatic near-UV light (325-400 nm) on Haemophilus influenzae was 8 times higher under aerobic than anaerobic irradiation. This light increased the frequency of mutation to novobiocin resistance and ability to utilize protoporphyrin IX. The slope of mutagenic effect at low doses appeared greater for the aerobic than for the anaerobic group. We concluded that polychromatic near-UV mutation of H. influenzae under anaerobic irradiation was caused by direct oxygen-independent action on DNA.

Published
1990
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14. Plasmid containing a DNA ligase gene from Haemophilus influenzae.

Author

McCarthy D, Griffin K, and Setlow JK

Subjects
Cloning, Molecular, DNA Ligases metabolism, DNA Repair, DNA, Bacterial metabolism, Escherichia coli genetics, Haemophilus influenzae enzymology, Haemophilus influenzae radiation effects, Mutation, Recombination, Genetic, Ultraviolet Rays, DNA Ligases genetics, Genes, Bacterial, Haemophilus influenzae genetics, Plasmids, Polynucleotide Ligases genetics
Abstract

A ligase gene from Haemophilus influenzae was cloned into the shuttle vector pDM2 . Although the plasmid did not affect X-ray sensitivity, it caused an increase in UV sensitivity of the wild-type but not excision-defective H. influenzae and a decrease in UV sensitivity of the rec-1 mutant.

Published
1984
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15. Repair by genetic recombination in bacteria: overview.

Author

Howard-Flanders P

Subjects
DNA Replication radiation effects, DNA Restriction Enzymes metabolism, DNA, Bacterial metabolism, Escherichia coli metabolism, Escherichia coli radiation effects, Haemophilus influenzae metabolism, Haemophilus influenzae radiation effects, Molecular Weight, Plasmids, Radiation Effects, Species Specificity, Ultraviolet Rays, X-Rays, DNA Repair, Recombination, Genetic
Abstract

DNA molecules that have been damaged in both strands at the same level are not subject to repair by excision but instead can be repaired through recombination with homologous molecules. Examples of two-strand damage include postreplication gaps opposite pyrimidine dimers, two-strand breaks produced by X-rays, and chemically induced interstrand cross-links. In ultraviolet-irradiated bacteria, the newly synthesized DNA is of length equal to the interdimer spacing. With continued incubation, this low-molecular-weight DNA is joined into high-molecular-weight chains (postreplication repair), a process associated with sister exchanges in bacteria. Recombination is initiated by pyrimidine dimers opposite postreplication gaps and by interstrand cross-links that have been cut by excision enzymes. The free ends at the resulting gaps presumably initiate the exchanges. Postreplication repair in Escherichia coli occurs in recB- AND RECC but is greatly slowed in recF- mutants. RecB and recC are the structural genes for exonuclease V, which digests two-stranded DNA by releasing oligonucleotides first from one strand and then from the other. The postreplication sister exchanges in ultra-violet-irradiated bacteria result in the distribution of pyrimidine dimers between parental and daughter strands, indicating that long exchanges involving both strands of each duplex occur. The R1 restriction endonuclease from E. COli has been used to cut the DNA of a bacterial drug-resistance transfer factor with one nuclease-sensitive site, and also DNA from the frog Xenopus enriched for ribosomal 18S and 28S genes. The fragments were annealed with the cut plasmid DNA and ligated, producing a new larger plasmid carrying the eukaryotic rDNA and able to infect and replicate in E. coli.

Published
1975
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17. [Genetic transformation with denatured DNA inactivated by ultraviolet light and its reactivation by nitrous acid].

Author

González-Dadda L and Cabrera-Juárez E

Subjects
Haemophilus influenzae drug effects, Haemophilus influenzae radiation effects, Nucleic Acid Denaturation, Ultraviolet Rays, DNA, Bacterial radiation effects, Haemophilus influenzae genetics, Nitrites pharmacology, Nitrous Acid pharmacology, Transformation, Genetic drug effects, Transformation, Genetic radiation effects
Published
1984

18. N-Nitrosocarbaryl-induced mutagenesis in Haemophilus influenzae strains deficient in repair and recombination.

Author

Beattie KL

Subjects
Carbaryl pharmacology, Carbon Radioisotopes, Centrifugation, Zonal, DNA Replication, DNA, Bacterial biosynthesis, Haemophilus influenzae radiation effects, Radiation Genetics, Thymidine metabolism, Tritium, Ultraviolet Rays, Carbaryl analogs & derivatives, DNA Repair, Haemophilus influenzae drug effects, Mutagens pharmacology, Mutation, Nitroso Compounds pharmacology, Recombination, Genetic
Abstract

Mutagenesis was studied in repair- and recombination-deficient strains of Haemophilus influenzae after treatment with N-nitrosocarbaryl (NC). Three different strains of H. influenzae carrying mutations affecting excision-repair of UV-induced pyrimidine dimers exhibited normal repair of premutational lesions (as detected by decreased mutation yield resulting from post-treatment DNA synthesis delay) and normal nonreplicative mutation fixation. This indicated that neither of these phenomena are caused by the smae repair mechanism that removes UV-induced pyrimidine dimers from the DNA. The recombination-deficient mutant recI is apparently deficient in the replication-dependent mode of NC-induced mutation fixation. This conclusion is based on the following results: (I) NC-induced mutagenesis is lower in the recI strain than in rec+ cells. (2) Repair of premutational lesions (which depends on the existence of replication-dependent mutation fixation for its detection) was not detected in the recI strain. (3) When nonreplicative mutation fixation and final mutation frequency were measured in the same experiment, about I/4 to I/3 of the final mutation yield could be accounted for by nonreplicative mutation fixation in the rec+ strain, whereas all of the mutation could be accounted for in the recI strain by the nonreplicative mutation fixation. (4) When mutation fixation in strain dna9 recI was followed at the permissive (36 degrees) and nonpermissive (41 degrees) temperatures, it became apparent that in the recI strain replication-dependent mutation fixation occurs at early times, but these newly fixed mutations are unstable and disappear at later times, leaving only the mutations fixed by the nonreplicative process. The recI strain exhibits normal repair of NC-induced single-strand breaks or alkali-labile bonds in the DNA labeled before treatment, but is slow in joining discontinuties present in DNA synthesized after treatment. The results are consistent with the idea that in NC-treated H. influenzae cells the replication-dependent mode of mutation fixation occurs by error-prone joining of interruptions present in the DNA synthesized after treatment. The possibility still exists, however, that during DNA replication mispairing occurs opposite certain alkylation-induced lesions and that mutations arising during replication of strain recI later disappear as a result of degradation of newly synthesized DNA, which is excessive in this strain.

Published
1975
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20. Characterization of the rec-1 gene of Haemophilus influenzae and behavior of the gene in Escherichia coli.

Author

Setlow JK, Spikes D, and Griffin K

Subjects
Cloning, Molecular, DNA Repair, DNA, Bacterial, Dose-Response Relationship, Radiation, Genes, Bacterial, Genetic Vectors, Haemophilus influenzae radiation effects, Mutation, Plasmids, Recombination, Genetic, Ultraviolet Rays, Virus Activation, Bacterial Proteins genetics, Escherichia coli genetics, Haemophilus influenzae genetics
Abstract

The rec-1 gene of Haemophilus influenzae was cloned into a shuttle vector that replicates in Escherichia coli as well as in H. influenzae. The plasmid, called pRec1, complemented the defects of a rec-1 mutant in repair of UV damage, transformation, and ability of prophage to be induced by UV radiation. Although UV resistance and recombination were caused by pRec1 in E. coli recA mutants, UV induction of lambda and UV mutagenesis were not. We suggest that the ability of the H. influenzae Rec-1 protein to cause cleavage of repressors but not the recombinase function differs from that of the E. coli RecA protein.

Published
1988
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21. Lethal effect of mitomycin C on Haemophilus influenzae.

Author

Small GD, Setlow JK, Kooistra J, and Shapanka R

Subjects
Cyclic AMP metabolism, DNA Repair, DNA, Bacterial biosynthesis, DNA, Bacterial metabolism, Deoxyribonucleases biosynthesis, Drug Resistance, Microbial, Haemophilus influenzae metabolism, Haemophilus influenzae radiation effects, Lysogeny, Mitomycins metabolism, Mutation, Nucleic Acid Denaturation, Radiation Effects, Recombination, Genetic, Ultraviolet Rays, Haemophilus influenzae drug effects, Mitomycins pharmacology
Abstract

The sensitivity of ultraviolet-sensitive strains to inactivation by mitomycin C (MC) is at the most only a factor of two greater than that of the wild type. The presence of inducible prophage has very little effect on the sensitivity. Genes which control excision of ultraviolet-induced pyrimidine dimers also control repair of MC-induced cross-links, as measured by resistance of denatured deoxyribonucleic acid (DNA) from treated cells to S1 nuclease digestion. However, endonucleolytic breaks in MC-damaged DNA, as judged by decreased single-strand molecular weight upon incubation of treated cells, are independent of these genes and probably are caused by monoadducts. After long periods of incubation there is a return to the molecular weight of untreated DNA. DNA degradation after MC treatment of various strains is not correlated with sensitivity to inactivation. Stationary-phase cells of all strains are more than twice as sensitive to MC as exponentially growing cells, and the sensitivity difference agrees with the measured difference in the number of cross-links after MC treatment of cells in the two growth stages. Evidence has been obtained that these phenomena result from differences in uptake of MC, which can be influenced by cyclic adenosine monophosphate. Small deviations in MC sensitivity from that of the wild type observed in mutants lacking the adenosine 5'-triphosphate-dependent nuclease are postulated to result from differences in MC uptake. These mutants, although no more ultraviolet sensitive than the wild type, are more sensitive to streptomycin, which also must be taken up by the cell to be effective.

Published
1976
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24. Isolation and characterization of mutants of Haemophilus influenzae deficient in an adenosine 5'-triphosphate-dependent deoxyribonuclease activity.

Author

Wilcox KW and Smith HO

Subjects
Autoradiography, Cell-Free System, Cesium Radioisotopes, DNA Repair, DNA, Bacterial metabolism, DNA, Bacterial radiation effects, Haemophilus influenzae metabolism, Haemophilus influenzae radiation effects, Mesylates pharmacology, Radiation Effects, Recombination, Genetic, Transformation, Genetic, Ultraviolet Rays, Adenosine Triphosphate metabolism, Deoxyribonucleases metabolism, Haemophilus influenzae enzymology, Mutation
Abstract

By a direct assay approach, mutants of Haemophilus influenzae Rd that are deficient in adenosine 5'-triphosphate-dependent deoxyribonuclease activity (add-) were isolated and characterized. A large proportion (50 to 90%) of the cells in cultures of these mutants failed to produce visible colonies when plated. An extensive analysis of the recombination proficiency of these strains revealed that the transformation frequency (transformants per competent cell) in the mutants was similar to that found in the wild type, but that the transformation efficiency (transformants per microgram of irreversibly bound deoxyribonucleic acid [DNA]) was reduced approximately fourfold. Sensitivities of the mutants to gamma rays, ultraviolet radiation, and methyl methane sulfonate were only slightly greater than wild-type levels. The rate of degradation of host DNA after ultraviolet irradiation was significantly reduced in the mutants. It is suggested that the adenosine 5'-triphosphate-dependent deoxyribonuclease in H. influenzae plays a nonessential role in DNA recombination and repair.

Published
1975
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25. Inducible repair system in Haemophilus influenzae unaccompanied by mutation.

Author

Notani NK and Setlow JK

Subjects
Chloramphenicol pharmacology, Haemophilus influenzae genetics, Haemophilus influenzae radiation effects, Mitomycins pharmacology, Mutation, Ultraviolet Rays, Bacteriophages growth & development, DNA Repair, DNA, Bacterial metabolism, Haemophilus influenzae metabolism
Abstract

Weigle reactivation of ultraviolet-irradiated HPlc1 phage was observed after ultraviolet or mitomycin C treatment of Haemophilus influenzae cells. The amount of reactivation was considerably increased when the treated cells were incubated in growth medium before infection. The presence of chloramphenicol during this incubation abolished the reactivation. No mutation of this phage accompanied the reactivation. When cells were treated so as to produce a maximal reactivation of phage, neither reactivation or mutation of cells was observed. It is concluded that H. influenzae has an inducible repair system that is not accompanied by mutation.

Published
1980
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27. Cloning and characterization of the Haemophilus influenzae Rd rec-1+ gene.

Author

Stuy JH

Subjects
Aerobiosis, Anaerobiosis, Genetic Vectors, Haemophilus influenzae drug effects, Haemophilus influenzae radiation effects, Kinetics, Methyl Methanesulfonate pharmacology, Plasmids, Transformation, Bacterial, Ultraviolet Rays, Cloning, Molecular, Genes, Bacterial, Haemophilus influenzae genetics
Abstract

The Haemophilus influenzae Rd rec-1+ gene was cloned from a partial chromosomal digest into a plasmid vector as a 20-kilobase-pair (kbp) BstEII fragment and then subcloned. The smallest subclone with rec-1+ activity carried a 3.1-kbp EcoRI fragment. The identity of the rec-I gene in these clones was confirmed by transforming an Rd strain carrying a leaky rec-1 mutation (recA4) to resistance to methyl methanesulfonate (MMS) by using whole or digested plasmids. It was demonstrated that the Rec+ phenotype of the MMSr transformants was linked to the strA, novAB, and mmsA loci, as expected if the recA4 allele had been replaced by rec-1+. In growing cultures (rec-1 or rec+), all rec-1+-carrying plasmids induced near-maximal levels of transformability when their hosts reached stationary phase; these levels are 100 to 1,000 times higher than the values seen with strains not carrying a Rec plasmid. Transfer of the 3.1-kbp subclone was greatly reduced compared with transfer of similarly sized vector plasmids, and the resulting transformants grew slowly; this suggests an explanation of my failure to directly clone this fragment from chromosomal DNA digests. Transfer of a rec-1+ plasmid to a very poorly genetically transformable H. influenzae Rb strain resulted in greatly increased transformability. Transfer of such plasmids to a noncompetent H. influenzae Rc strain did not render this strain competent. It is suggested that transformability of Rd and Rb strains is limited by rec-1 expression but that the noncompetence of Rc has some other basis.

Published
1989
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30. Prophage induction and inactivation by UV light.

Author

Barnhart BJ, Cox SH, and Jett JH

Subjects
Bacteriophages radiation effects, DNA Repair, DNA, Bacterial biosynthesis, Mutation, Radiation Effects, Bacteriophages growth & development, Haemophilus influenzae metabolism, Haemophilus influenzae radiation effects, Lysogeny, Ultraviolet Rays, Virus Replication radiation effects
Abstract

Analysis of the induction curves for UV light-irradiated Haemophilus influenzae lysogens and the distribution of pyrimidine dimers in a repair-deficient lysogen suggests that one dimer per prophage-size segment of the host bacterial chromosome is necessary as a preinduction event. The close correlations obtained prompted a renewed consideration of the possibility that direct prophage induction occurs when one dimer is stabilized within the prophage genome. The host excision-repair system apparently functions to reduce the probability of "stabilizing" within the prophage those dimers that are necessary for induction and inactivation. The presence of the inducible defective prophage in strain Rd depresses the inducibility of prophage HP1c1.

Published
1976
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35. Mechanism of gap-filling during postreplication repair of ultraviolet damage in Haemophilus influenzae.

Author

Small GD

Subjects
Bromodeoxyuridine metabolism, Centrifugation, Density Gradient, DNA Replication, DNA, Bacterial radiation effects, Haemophilus influenzae radiation effects, Models, Biological, Mutation, Radiation Effects, Recombination, Genetic, Temperature, DNA Repair, DNA, Bacterial biosynthesis, DNA, Single-Stranded biosynthesis, Haemophilus influenzae metabolism, Ultraviolet Rays
Abstract

Deoxyribonucleic acid (DNA), pulse labeled after ultraviolet irradiation of excision-defective mutants of Haemophilus influenzae, is of lower single strand molecular weight than that of unirradiated cells but approaches the size of DNA from unirradiated cells upon further incubation in growth medium. This gap-filling process is controlled by the rec-1 gene. Gap-filling occurs normally in a temperature-sensitive DNA synthesis mutant at the restrictive temperature showing that normal semiconservative DNA synthesis is not necessary for gap-filling. To test for recombinational events after irradiation, the DNA synthesized after irradiation was radioactively labeled for a short time in medium containing 5-bromodeoxyuridine followed by incubation for various times in non-radioactive, 5-bromodeoxyuridine-containing medium. The DNA was denatured and analyzed isopycnically. The labeled DNA was initially "heavy," but later shifted toward lighter densities. This shift occurred in the temperature-sensitive DNA synthesis mutant at the restrictive temperature and in the recombination-defective mutant rec-2, but was not seen in the rec-1 mutant. The density shift can be interpreted as evidence that rather extensive exchanges occurred between parental DNA and the DNA made after irradiation. These results suggest that such exchanges are important for gap-filling in H. influenzae.

Published
1975
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36. Nature of radiation and chemically induced lesions and role or cellular mechanism in cell survival and mutagenesis. II.

Author

Joshi VP, Bajaj MH, George MF, do Rego MH, and Notani NK

Subjects
Cell Survival drug effects, Dose-Response Relationship, Radiation, Haemophilus influenzae drug effects, Haemophilus influenzae metabolism, Kinetics, Phenotype, Species Specificity, Transformation, Genetic drug effects, Transformation, Genetic radiation effects, Ultraviolet Rays, Cell Survival radiation effects, Furocoumarins pharmacology, Haemophilus influenzae radiation effects, Mutation
Published
1980
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37. Effect of adenosine 5'-triphosphate-dependent deoxyribonuclease deficiency on properties and transformation of Haemophilus influenzae strains.

Author

Kooistra J and Venema G

Subjects
Adenosine Triphosphate, DNA Replication, DNA, Bacterial metabolism, Haemophilus influenzae drug effects, Haemophilus influenzae radiation effects, Methyl Methanesulfonate pharmacology, Mitomycins pharmacology, Mutation, Recombination, Genetic, Ultraviolet Rays, Deoxyribonucleases metabolism, Haemophilus influenzae physiology, Transformation, Genetic
Abstract

A transformation-deficient strain of Haemophilus influenzae, lacking adenosine 5'-triphosphate-dependent deoxyribonuclease activity, was isolated by selection for sensitivity to mitomycin. The mutant, designated JK57, possibily showed a moderate sensitivity to ultraviolet (UV) irradiation and treatment with methyl methane sulfonate. Contrary to the wild type, the mutant degraded chromosomal deoxyribonucleic acid (DNA) to some extent. However, after UV irradiation to the mutant degraded considerably less DNA than the wild type and the TD24 mutant of H. influenzae, the latter being equivalent to a recA mutant of Escherichia coli. A TD2457 double mutant, constructed by transferring the TD24 mutation into the JK57 strain, was as sensitive to deleterious agents and as deficient in transformation as the TD24 single mutant; in the double mutant, however, after UV irradiation chromosomal DNA was degraded to the same extent as in the JK57 mutant. The number of transformants per unit of radioactive donor DNA taken up by JK57 recipient cells was approximately 10-fold smaller than in the wild type. Presynaptically, the fate of donor DNA in the adenosine 5'-triphosphate-dependent deoxyribonuclease-deficient mutants was not different from that in the wild type. In contrast to TD24 and the TD2457 double mutant, in the JK57 mutant, recombinant-type activities (molecules carrying both the donor and recipient markers) were formed almost as well as in the wild type. After integration into the JK57 recipient genome, the rate of replication of the donor marker was equal to that of the recipient marker during a number of generations, which suggests that the donor DNA is normally integrated into the JK57 chromosome. It is suggested that transformed JK57 cells pass with a high frequency into a type of cells that can replicate their chromosomes many times but have lost the ability to form visible colonies after plating.

Published
1976
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38. Formation of a thymine photoproduct in transforming DNA by near ultraviolet irradiation.

Author

Carbera-Juárez E and Setlow JK

Subjects
Chromatography, Paper, DNA, Bacterial metabolism, Haemophilus influenzae radiation effects, Mutation, DNA, Bacterial radiation effects, Haemophilus influenzae metabolism, Thymine, Transformation, Genetic radiation effects, Ultraviolet Rays
Abstract

Irradiation at 334 and 365 nm of a highly purified preparation of thymine-labeled transforming DNA from Haemophilus influenzae produced a photo product containing label from thymine but different from the cyclobutane dimer. The photoproduct is soluble in water and in ethanol and Rf values in a number of solvents are presented. The photoproduct has properties similar in a number of respects to those of the spore photoproduct, 5-thyminyl-5,6-dihydrothymine. The near ultraviolet photoproduct is more likely to affect the oxygen independent inactivation of transforming DNA rather than its mutagenesis, as judged by the quantitative relationship between amount of photboproduct and inactivation and mutagenesis.

Published
1977
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40. Accumulation of incomplete particles after uv-light induction of Haemophilus influenzae lysogenic for bacteriophage HP1C1.

Author

Okinaka RT and Barnhart BJ

Subjects
Bacteriolysis, Haemophilus influenzae ultrastructure, Radiation Effects, Temperature, Bacteriophages growth & development, Haemophilus influenzae radiation effects, Inclusion Bodies, Viral, Lysogeny, Ultraviolet Rays, Virus Replication
Abstract

Temperate phage HP1c1 produces large quantities of incomplete phage-like particles when grown on Haemophilus influenzae BC200, a strain apparently cured of a common defective prophage.

Published
1974
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44. Similarity in properties and mapping of three Rec mutants of Haemophilus influenzae.

Author

Kooistra J and Setlow JK

Subjects
Chromosome Mapping, DNA, Bacterial radiation effects, Drug Resistance, Microbial, Genes, Genetic Linkage, Lysogeny, Mitomycins pharmacology, Radiation Effects, Streptomycin pharmacology, Transformation, Genetic, Ultraviolet Rays, Haemophilus influenzae drug effects, Haemophilus influenzae radiation effects, Mutation, Recombination, Genetic
Abstract

Three Rec- mutants of Haemophilus influenzae have been studied with respect to their transformability, ultraviolet and mitomycin C sensitivities, spontaneous and ultraviolet-induced deoxyribonucleic acid breakdown, inducibility of lysogens, and the linkage of the three mutations to a streptomycin resistance marker. The data indicate that the three mutations cause the same phenotypic changes, and that they are all on the same gene. Transformability of the mutants is different when two different media are used for competence development, although transformability with the two competence methods is not different in a Rec- strain that is mutant at another gene.

Published
1976
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47. Prophage induction in Haemophilus influenzae and its relationship to mutation by chemical and physical agents.

Author

Balganesh M and Setlow JK

Subjects
Bacteriophages drug effects, Bacteriophages radiation effects, Ethyl Methanesulfonate toxicity, Haemophilus influenzae drug effects, Haemophilus influenzae radiation effects, Methyl Methanesulfonate toxicity, Methylnitronitrosoguanidine toxicity, Mitomycin, Mitomycins toxicity, Ultraviolet Rays, Bacteriophages growth & development, Haemophilus influenzae genetics, Mutagens toxicity, Mutation, Virus Activation drug effects, Virus Activation radiation effects
Abstract

It is known that UV, X-rays, MMC and MMS are not mutagenic for H. influenzae, whereas HZ, EMS and MNNG are potent mutagens for this bacterium. All of these agents, however, are known to be both mutagenic and able to induce prophage in E. coli. We report here that all the agents except HZ induce prophage in H. influenzae, and EMS even induces in the recombination-defective recl mutant, which is non-inducible by UV, MMC, MNNG and MMS. MMS did not cause single-strand breaks or gaps in DNA synthesized after treatment of H. influenzae, but EMS and MNNG produced them. EMS caused more breaks in DNA synthesized before treatment than in that synthesized after treatment. On the other hand we did observe such breaks or gaps induced in E. coli in DNA synthesized posttreatment by EMS as well as by MMS and MNNG, at comparable survival levels.

Published
1984
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48. Effects of x irradiation on a temperate bacteriophage of Haemophilus influenzae.

Author

Boling ME and Randolph ML

Subjects
Bacteriophages metabolism, DNA Repair, DNA, Viral biosynthesis, DNA, Viral radiation effects, Hydrogen Peroxide pharmacology, Mutation, Ultraviolet Rays, X-Rays, Bacteriophages radiation effects, Haemophilus influenzae radiation effects
Abstract

The inactivation of bacteriophage HP1c1 by X rays in a complex medium was found to be exponential, with a D0 (the X-ray exposure necessary to reduce the survival of the phage to 37%) of approximately 90 kR. Analysis of results of sucrose sedimentation of DNA from X-irradiated whole phage showed that the D0 for intactness of single strands was about 105kR, and for intactness of double strands, it was much higher. The D0 for attachment of X-irradiated phage to the host was roughly estimated as about 1,100 kR. Loss of DNA from the phage occurred and was probably due to lysis of the phage by X irradiation, but the significance of the damage is not clear. The production of single-strand breaks approaches the rate of survival loss after X irradiation. However, single-strand breaks produced by UV irradiation, in the presence of H2O2, equivalent to 215 kR of X rays, showed no lethal effect on the phage. Although UV-sensitive mutants of the host cell, Haemophilus influenzae, have been shown to reactivate UV-irradiated phage less than does the wild-type host cell, X-irradiated phage survive equally well on the mutants as on the wild type, a fact suggesting that other repair systems are involved in X-ray repair.

Published
1977
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49. Repair and action spectrum of oxygen-independent lethality of near UV light on Haemophilus influenzae and lack of mutation.

Author

Cabrera-Juárez E and Setlow JK

Subjects
DNA, Bacterial radiation effects, Dose-Response Relationship, Radiation, Haemophilus influenzae radiation effects, Mutation, Oxygen Consumption, Transformation, Genetic, Ultraviolet Rays, DNA Repair, Haemophilus influenzae genetics
Abstract

Haemophilus influenzae has been inactivated anaerobically at 313, 334, 365 and 405 nm, and exhibits the greatest sensitivity at 334 nm. The rec1 and uvr1 mutants show the greatest increase in sensitivity over the wild-type at 313 nm, but differences could be seen also at the other wavelengths. Anaerobic irradiation is less effective for killing at all the wavelengths than irradiation under aerobic conditions, but the greatest difference was observed at 365 nm. No induced mutation was seen as a result of anaerobic irradiation at 334 nm, although purified transforming DNA can be mutated at this wavelength.

Published
1980
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50. Evidence that UV-inducible error-prone repair is absent in Haemophilus influenzae Rd, with a discussion of the relation to error-prone repair of alkylating-agent damage.

Author

Kimball RF, Boling ME, and Perdue SW

Subjects
Ethyl Methanesulfonate pharmacology, Methyl Methanesulfonate pharmacology, Methylnitronitrosoguanidine pharmacology, Mutagens, Nitrogen Mustard Compounds pharmacology, Nitroso Compounds pharmacology, Phenotype, Ultraviolet Rays, X-Rays, Alkylating Agents pharmacology, DNA Repair, Haemophilus influenzae drug effects, Haemophilus influenzae radiation effects, Mutation
Abstract

Haemophilus influenzae Rd and its derivatives are mutated either not at all or to only a very small extent by ultraviolet (UV) radiation, X-rays, methyl methanesulfonate, and nitrogen mustard, though they are readily mutated by such agents as N-methyl-N'-nitro-N-nitrosoguanidine, ethyl methanesulfonate, and nitrosocarbaryl. In these respects H. influenzae Rd resembles the lexA mutants of Escherichia coli that lack the SOS or reclex UV-inducible error-prone repair system. This similarity is further brought out by the observation that chloramphenicol has little or no effect on post-replication repair after UV irradiation. In E. coli, chloramphenicol has been reported to considerably inhibit post-replication repair in the wild type but not in the lexA mutant. Earlier work has suggested that most or all the mutations induced in H. influenzae by NC result from error-prone repair. Combined treatment with NC and either X-rays or UV shows that the NC error-prone repair system does not produce mutations from the lesions induced by these radiations even while it is producing them from its own lesions. It is concluded that the NC error-prone repair system or systems and the reclex error-prone system are different.

Published
1977
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