Your search keyword '"Acridine Orange toxicity"' showing total 31 results

1. Investigation of in vivo unscheduled DNA synthesis in rabbit corneas following instillation of genotoxic agents.

Author

Tahara H, Nemoto S, Yamagiwa Y, Haranosono Y, and Kurata M

Subjects

4-Nitroquinoline-1-oxide administration & dosage, 4-Nitroquinoline-1-oxide toxicity, Acridine Orange administration & dosage, Acridine Orange toxicity, Acrylamide administration & dosage, Acrylamide toxicity, Administration, Ophthalmic, Animals, DNA analysis, DNA Repair, Dose-Response Relationship, Drug, Epithelium, Corneal metabolism, Ethidium administration & dosage, Ethidium toxicity, Feasibility Studies, Male, Models, Animal, Mutagens toxicity, Paraquat administration & dosage, Paraquat toxicity, Rabbits, DNA biosynthesis, DNA Damage drug effects, Epithelium, Corneal drug effects, Mutagenicity Tests methods, Mutagens administration & dosage

Abstract

Purpose: An unscheduled DNA synthesis (UDS) test is used for in vitro or in vivo genotoxicity evaluation. The UDS test with hepatocytes is well established; however, drug exposure levels at the application site for topically administered drugs (e.g. ophthalmic drugs) often exceed the exposure levels for systemic administration. To establish in vivo genotoxicity on the ocular surface, we performed the UDS test using rabbit corneas from eyes subjected to instillation of genotoxic agents., Materials and Methods: Five genotoxic agents - 1,1'-dimethyl-4,4'-bipyridinium dichloride (paraquat); acridine orange; ethidium bromide; acrylamide; and 4-nitroquinoline 1-oxide (4-NQO) - were instilled once onto both eyes of male Japanese white rabbits. Physiological saline or a general vehicle for ophthalmic solution were instilled as the negative controls. Dimethyl sulfoxide was instilled as the vehicle control. Isolated corneas were incubated with tritium-labelled thymidine and the number of sparsely labelled cells (SLCs, cells undergoing UDS) was counted by autoradiography., Results: Statistically significant increases in the mean appearance rates of SLCs in the corneal epithelium were noted in paraquat-, acridine orange-, ethidium bromide-, and 4-NQO-treated eyes compared with those of the controls. These increases generally appeared in a dose-dependent manner. Acrylamide did not induce an increase in the mean appearance rates of SLCs, presumably because it caused the generation of fewer metabolites in the cornea., Conclusions: UDS tests revealed DNA damage in the cornea epitheliums treated with well-known genotoxic agents. These results suggest that the UDS test is one of the useful tools for the assessment of in vivo genotoxicity on the ocular surface in the development of ophthalmic drugs.

Published

2021

2. Investigation of comet assays under conditions mimicking ocular instillation administration in a three-dimensional reconstructed human corneal epithelial model.

Author

Tahara H, Sadamoto K, Yamagiwa Y, Nemoto S, and Kurata M

Subjects

4-Nitroquinoline-1-oxide toxicity, Acridine Orange toxicity, Acrylamide toxicity, Administration, Ophthalmic, Cell Line, Cornea, DNA Damage, Epithelial Cells drug effects, Epithelial Cells metabolism, Epithelium, Corneal cytology, Epithelium, Corneal metabolism, Ethidium toxicity, Humans, Hydrogen Peroxide toxicity, In Vitro Techniques, Methyl Methanesulfonate toxicity, Paraquat toxicity, Quinolones toxicity, Comet Assay methods, Epithelium, Corneal drug effects, Ophthalmic Solutions toxicity

Abstract

Purpose: A comet assay is one of the genotoxicity methods for evaluating the potential of chemicals to induce DNA strand breaks. To investigate the usefulness of comet assays for evaluating the genotoxic potential of ophthalmic solutions, a three-dimensional (3D) reconstructed human corneal epithelial model (3D corneal model) was exposed to conditions mimicking topical ocular instillation administration. Methods: The 3D corneal model was exposed to acridine orange, ethidium bromide, hydrogen peroxide, 1,1'-dimethyl-4,4'-bipyridinium dichloride (paraquat), 4-nitroquinoline 1-oxide (4-NQO), acrylamide and methyl methanesulfonate (MMS). To mimic the ocular surface condition to which ophthalmic solutions are administered, the exposure time was set to 1 minute. Likewise, human corneal epithelial (HCE-T) cells, as monolayer cultured cells, were exposed to the same chemicals, for comparison. Results: In the 3D corneal model, the amount of DNA fragments was statistically significantly increased in cells treated with each of the test chemicals except acrylamide. In HCE-T cells, the amount of DNA fragments was statistically significantly increased in acridine orange-, ethidium bromide-, hydrogen peroxide-, 4-NQO- and MMS-treated cells but not in paraquat- or acrylamide-treated cells. In the 3D corneal model, the lowest concentrations at which we observed DNA damage were about 100 times higher than the concentrations in HCE-T cells. Since the 3D corneal model is morphologically similar to human corneal tissue, form a multilayer and having tight junctions, it may be that the test chemicals only permeated about 1% into the 3D corneal model. Conclusion: These results suggest that the comet assay using 3D cell culture models may reflect in vivo conditions better than do monolayer cultured cells, and that the comet assay may be useful for the evaluation of genotoxic potential of topical ophthalmic solution.

Published

2019

3. Mutagen-induced phytotoxicity in maize seed germination is dependent on ROS scavenging capacity.

Author

Zhang Y, Shi H, and Deng B

Subjects

Acridine Orange toxicity, Dose-Response Relationship, Drug, Droughts, Ethidium toxicity, Gene Expression Regulation, Plant drug effects, Hydrogen Peroxide metabolism, NADPH Oxidases metabolism, Stress, Physiological drug effects, Zea mays drug effects, Germination drug effects, Mutagens toxicity, Reactive Oxygen Species metabolism, Zea mays physiology

Abstract

Ethidium bromide (EB) and acridine orange (AO) bind to nucleic acids and are thus considered as potential mutagens. In this study, the effects of EB and AO on the germination behaviours of white, yellow, red, and purple maize seeds were investigated. The results indicate that low concentrations of EB (50 μg mL -1 ) and AO (500 μg mL -1 ) promote germination, particularly for the white and yellow seeds. However, high concentrations of EB (0.5 mg mL -1 ) and AO (5 mg mL -1 ) significantly inhibit germination, with the level of inhibition decreasing in the following order: white > yellow > red > purple. In addition, EB and AO induce H 2 O 2 production in a concentration-dependent manner. The effects of these mutagens on seed germination were partly reversed by dimethyl thiourea, a scavenger of reactive oxygen species (ROS), and diphenylene iodonium (DPI), an inhibitor of NADPH oxidase, while the effects were enhanced by treatment with H 2 O 2 and 3-amino-1,2,4-triazole, a specific inhibitor of catalase. In addition, AO and EB profoundly increased NADPH oxidase activities in germinating seeds. The treatment of seeds with EB and AO did not affect the growth or drought tolerance of the resultant seedlings. The findings suggest that the mechanism of mutagen toxicity is related to the induction of ROS production.

Published

2018

4. Clinical Trial of Radiotherapy After Intravenous Injection of Acridine Orange for Patients with Cancer.

Author

Kusuzaki K, Takai T, Yoshimura H, Inoue K, Takai S, and Baldini N

Subjects

Humans, Mutagens toxicity, Pilot Projects, Treatment Outcome, Acridine Orange therapeutic use, Acridine Orange toxicity, Mutagens therapeutic use, Neoplasms drug therapy, Neoplasms radiotherapy

Abstract

Aim: We previously found that low-dose X-ray treatment after systemic administration of acridine orange (AO), which is known to have a low toxicity in animals, inhibited tumor growth in experimental studies using mouse osteosarcoma. In this pilot study, we planned to verify the toxicity of intravenous injection of low-dose AO in humans and investigate the anticancer effect of radiation after systemic AO administration (iAOR) for human cancer., Patients and Methods: Eight patients with terminal cancer were treated with iAOR., Results: None of the patients exhibited an adverse effect from AO injection. Three out of the five patients who received a full course of iAOR exhibited clinical or image-based responses, whereas two patients did not., Conclusion: The systemic administration of AO was confirmed not to be toxic in humans, and iAOR was suggested to be potentially effective against radioresistant cancer., (Copyright© 2018, International Institute of Anticancer Research (Dr. George J. Delinasios), All rights reserved.)

Published

2018

5. Experimental and theoretical investigation effect of flavonols antioxidants on DNA damage.

Author

Ensafi AA, Heydari-Soureshjani E, Jafari-Asl M, Rezaei B, Ghasemi JB, and Aghaee E

Subjects

Adenine analysis, Biosensing Techniques instrumentation, DNA genetics, Electrochemical Techniques instrumentation, Electrodes, Graphite chemistry, Guanine analysis, Limit of Detection, Molecular Docking Simulation, Nucleic Acid Conformation drug effects, Acridine Orange toxicity, Antioxidants pharmacology, DNA chemistry, DNA Damage drug effects, Flavonols pharmacology

Abstract

A new electrochemical biosensor was developed to demonstrate the effect of Acridine Orange (AO) on DNA damage. Then, the biosensor was used to check the inhibitors effect of three flavonols antioxidants (myricetin, fisetin and kaempferol) on DNA damage. Acridine Orange (AO) was used as a damaging agent because it shows a high affinity to nucleic acid and stretch of the double helical structure of DNA. Decreasing on the oxidation signals of adenine and guanine (in the DNA) in the presence of AO were used as probes to study the antioxidants power, using DNA-modified screen printed graphene electrode (DNA/SPGE). The results of our study showed that the DNA-biosensor could be suitable biosensor to investigate the inhibitors ability of the flavonols antioxidants on the DNA damage. The linear dependency was detected in the two regions in the ranges of 1.0-15.0 and 15.0-500.0 pmol L(-1). The detection limit was found 0.5 pmol L(-1) and 0.6 pmol L(-1) for guanine and adenine, respectively. To confirm the electrochemical results, Uv-Vis and fluorescence spectroscopic methods were used too. Finally molecular dynamic (MD) simulation was performed on the structure of DNA in a water box to study any interaction between the antioxidant, AO and DNA., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

6. Screening for efflux pump systems of bacteria by the new acridine orange agar method.

Author

Martins A and Amaral L

Subjects

Acridine Orange toxicity, Agar, Bacterial Proteins metabolism, Biological Transport, Carrier Proteins metabolism, Dose-Response Relationship, Drug, Escherichia coli K12 metabolism, Escherichia coli Proteins metabolism, Fluorescent Dyes toxicity, Lipoproteins metabolism, Membrane Transport Proteins metabolism, Multidrug Resistance-Associated Proteins metabolism, Salmonella enteritidis metabolism, Staphylococcus aureus metabolism, Acridine Orange metabolism, Bacterial Proteins analysis, Bacteriological Techniques, Carrier Proteins analysis, Drug Resistance, Multiple, Bacterial, Escherichia coli Proteins analysis, Fluorescent Dyes metabolism, Lipoproteins analysis, Membrane Transport Proteins analysis, Multidrug Resistance-Associated Proteins analysis

Abstract

Aim: Development of a non-toxic, fluorescent-based, agar system for the screening of overexpressed bacterial efflux pump systems with common, inexpensive UV accessories., Materials and Methods: Wild type Gram-negative and positive bacteria expressing intrinsic efflux pumps and their progeny that overexpress a specific efflux pump were selected for evaluation of efflux pump activity in a Mueller-Hinton agar, containing increasing concentrations of the non-toxic fluorescent chromophore acridine orange (AO). The method is based on the same principle as the first-generation ethidium bromide method, according to which the concentration of the fluorescent dye that first produces fluorescence of the overlying bacterial colony represents the maximum concentration of the dye that the bacterium can extrude. The higher the concentration needed to produce fluorescence, the greater the ability of the bacterial efflux pump to extrude the dye., Results: Progeny of Escherichia coli, Salmonella enterica serovar Enteritidis and Staphylococcus aureus that over-expressed a given efflux pump fluoresced (i.e. accumulated AO) at concentrations of AO that were much greater than the ones required for the emission of fluorescence by their corresponding wild-type counterpart which expressed an intrinsic efflux pump., Conclusion: The AO agar method readily identifies strains of Gram-negative and Gram-positive bacteria that overexpress efflux pump systems compared to their wild-type progeny.

Published

2012

7. Assessment of acridine orange and SYTO 16 for in vivo imaging of the peritoneal tissues in mice.

Author

Udovich JA, Besselsen DG, and Gmitro AF

Subjects

Animals, Data Interpretation, Statistical, Injections, Intraperitoneal, Mice, Mice, Inbred BALB C, Tissue Distribution, Acridine Orange toxicity, Fluorescent Dyes toxicity, Microscopy, Confocal, Organic Chemicals toxicity, Peritoneum drug effects

Abstract

The effect of peritoneal injection of acridine orange and SYTO 16 in mice was investigated. Images of peritoneal tissues stained with these dyes and obtained through a confocal micro-endoscope are presented. Seventy-five Balb/c mice were split into five groups and given peritoneal injections of dye or saline. The proportions of negative outcomes in each group were compared using confidence intervals and the Fisher's exact statistical test. A statistically significant increase in adverse events due to dye injection was not observed. These data provide an initial investigation into the safety of acridine orange and SYTO 16 for in vivo imaging.

Published

2009

8. Acridine Orange based platinum(II) complexes inducing cytotoxicity and cell cycle perturbation in spite of GSTP1 up-regulation.

Author

Valentini A, Pucci D, Crispini A, Federici G, and Bernardini S

Subjects

Cell Line, Tumor, Humans, Acridine Orange chemistry, Acridine Orange toxicity, Cell Cycle drug effects, Glutathione S-Transferase pi genetics, Platinum chemistry, Platinum toxicity, Up-Regulation drug effects

Abstract

A series of new ionic Pt(II) complexes of general formula [Pt(II)(A)n(Cl)(AO)]X (A=en, NH3; n=1, 2; X-=BF4-, NO3-, PF6-, CF3SO3-), 1-5, containing Acridine Orange (AO) bound to the metal atom through the endocyclic N atom, have been tested in human melanoma cells (M14, JR8 and PLF2), human neuroblastoma cell line SH-SY5Y and its cis-platin resistant subline SH-SY5Yres. The Pt(II) compounds, and in particular complexes 1 and 4, exhibit higher cytotoxic activity at lower concentration compared to cis-DDP in melanoma cells, affecting cell growth behavior and causing cell cycle perturbation. Moreover, M14 and JR8 cell lines were not able to rescue the impairment due to the new Pt(II) complexes since perturbation of cell cycle phases and cell proliferation inhibition were found after 72 h of recovery time. In order to evaluate whether GSTP1 may play a role in chemo-resistance of our melanoma model, we investigated the effect of the treatment with these Pt(II) compounds on GSTP1 gene expression. Up-regulation of GSTP1, evaluated by Qreal-time PCR was observed after treatment with complexes 1 and 4, showing that the effect of these Pt(II) compounds is GSTP1 indipendent. The lack of resistance of the new Pt(II)-AO complexes and their cytotoxicity, cell growth and cell cycle recovery in melanoma cells provide the basis for the development of new platinum anticancer compounds, directed to those tumors that over express GSTs enzymes.

Published

2006

9. Extracorporeal photodynamic image detection of mouse osteosarcoma in soft tissues utilizing fluorovisualization effect of acridine orange.

Author

Satonaka H, Kusuzaki K, Matsubara T, Shintani K, Wakabayashi T, Matsumine A, and Uchida A

Subjects

Animals, Cell Line, Tumor, Feasibility Studies, Fluorescence, Mice, Osteosarcoma pathology, Soft Tissue Neoplasms pathology, Time Factors, Acridine Orange toxicity, Fluorescent Dyes toxicity, Osteosarcoma diagnosis, Soft Tissue Neoplasms diagnosis

Abstract

Various imaging methods have been employed for the extracorporeal detection of malignant tumors in the human body, such as scintigraphy and PET; however, none is sufficiently accurate and all are also very expensive. To resolve these issues, we attempted to develop a new imaging technique of photodynamic diagnosis (PDD) with acridine orange (AO). AO has the ability to rapidly and specifically accumulate in malignant tumors and emit brilliant green fluorescence after blue light excitation. In this study, we investigated the feasibility of PDD utilizing the fluorovisualization effect of AO, for the extracorporeal detection of mouse osteosarcoma inoculated into the soft tissues. At 2 h after intravenous administration of 0.1, 0.2, 0.5, 1.0, 2.0 and 5.0 mg/kg AO, the tumor and the surrounding normal tissues were illuminated by blue light. The visual fluorescence contrast and ratio (X) of the difference in fluorescence intensity between the tumor and the surrounding normal tissues were evaluated using a high-resolution digital camera equipped with an absorption filter. In addition, the fluorescence contrast was also detected sequentially at 0.5, 1, 2, 3, 6 and 12 h after intravenous administration of AO at 1.0 mg/kg. The results revealed that the optimal condition for clear detection of the tumor was evaluation 2 h after intravenous injection of AO at 0.1 mg/kg, because it provided the best visual contrast on the digital images, and the fluorescence intensity as well as the value of X were higher as compared to the values under other conditions of dose and timing. Based on the results of an acute toxicity study of AO, the estimated LD50 of this substance following intravenous administration was 27.30 mg/kg. In conclusion, we believe that PDD using AO administered intravenously may be feasible for the detection of human musculoskeletal sarcomas in the soft tissues at extremities, and this technique might be a less invasive, less expensive, quicker and more accurate imaging modality than other previously reported imaging methods for this purpose., (Copyright 2006 S. Karger AG, Basel.)

Published

2006

10. An evaluation of novel vital dyes for intraocular surgery.

Author

Haritoglou C, Yu A, Freyer W, Priglinger SG, Alge C, Eibl K, May CA, Welge-Luessen U, and Kampik A

Subjects

Acridine Orange toxicity, Animals, Azo Compounds toxicity, Bromphenol Blue toxicity, Cell Proliferation drug effects, Cell Survival, Cells, Cultured, Colorimetry, Epiretinal Membrane diagnosis, Humans, Lens Capsule, Crystalline pathology, Lissamine Green Dyes toxicity, Pigment Epithelium of Eye drug effects, Rhodamines toxicity, Safety, Swine, Trypan Blue, Coloring Agents toxicity, Ophthalmologic Surgical Procedures, Staining and Labeling methods

Abstract

Purpose: To evaluate systematically the staining characteristics and safety of potential new dyes for intraocular surgery., Methods: Six dyes were included in the investigation: light green SF (LGSF) yellowish, E68, bromophenol blue (BPB), Chicago blue (CB), rhodamine 6G, rhodulinblau-basic 3 (RDB-B3). All dyes were dissolved and diluted in a balanced saline saline solution. The light-absorbing properties of each dye were measured at a concentration of 0.05% between 200 and 1000 nm. Staining characteristics were examined by staining lens capsule tissue and epiretinal membranes (ERMs), removed intraoperatively, with dye concentrations of 1.0%, 0.5%, 0.2%, and 0.05%. Enucleated porcine eyes (postmortem time, 9 hours) were also stained. Dye-related toxicity was evaluated by a colorimetric test (MTT) measuring the inhibition of retinal pigment epithelium (RPE) cell proliferation (ARPE-19 and primary human RPE cells, passages 3-6). Cell viability was also quantified based on a two-color fluorescence cell-viability assay. Dyes were investigated in concentrations of 0.2% and 0.02%., Results: All dyes investigated in this study stained human lens capsules, removed intraoperatively; ERMs, peeled during macular pucker surgery; and enucleated porcine eyes, depending on the concentration applied. The long-wavelength absorption maximum of the dyes was within the range of 527 to 655 nm at concentrations of 0.05%. Rhodamine G6 and RDB-B3 showed adverse effects on ARPE-19 cell proliferation at a concentration of 0.2% and were excluded from further investigation in primary RPE cells. The remaining four dyes showed no toxic effect on ARPE-19 and primary RPE cell proliferation at concentrations of 0.2% and 0.02%. Cell viability was affected by LGSF yellowish (0.2%) and CB (0.2% and 0.02%). Two dyes (E68 and BPB) showed no relevant toxicity in vitro., Conclusions: The systematic evaluation of dyes for intraocular use seems mandatory. In this study four dyes were identified with effective staining characteristics, with two of these dyes having no detectable toxic effect on RPE cells in vitro.

Published

2005

11. Antioxidant and antimutagenic activity of N-(2-carboxyethyl)chitosan.

Author

Kogan G, Skorik YA, Zitnanová I, Krizková L, Duracková Z, Gomes CA, Yatluk YG, and Krajcovic J

Subjects

Acridine Orange toxicity, Algorithms, Animals, Benzothiazoles, Carbohydrate Sequence, Chloroplasts genetics, Chloroplasts metabolism, Chromans pharmacology, DNA Damage, Esters, Euglena gracilis genetics, Euglena gracilis metabolism, Molecular Sequence Data, Mutagenicity Tests, Mutagens toxicity, Ofloxacin antagonists & inhibitors, Ofloxacin toxicity, Oxidants pharmacology, Spectrophotometry, Ultraviolet, Sulfonic Acids, Antimutagenic Agents pharmacology, Antioxidants pharmacology, Chitosan analogs & derivatives, Chitosan pharmacology

Abstract

The antioxidant and antimutagenic activities of the novel carboxyethyl derivatives of chitosan with three different degrees of substitution have been assayed in vitro in the unicellular flagellate Euglena gracilis subjected to the action of genotoxic agents acridine orange and ofloxacin. It has been demonstrated that chitosan derivatives exhibit concentration-dependent protective antigenotoxic activity against both mutagens. It is suggested that different mechanisms may be involved in its protective action--antioxidant activity in case of ofloxacin-induced DNA damage, as well as possible interaction with the cell membrane that prevents acridine orange from reaching the genetic compartments and subsequent damaging DNA through intercalative binding. Direct adsorption of acridine orange on chitosan derivatives was ruled out as a possible mechanism of protection on the basis of spectrophotometric measurements. Dependence of the antimutagenic properties of the studied chitosan derivatives on the degree of substitution was reversed in experiments involving acridine orange and ofloxacin, which also indicated different mechanisms of protection involved in these two cases.

Published

2004

12. Triterpenoid cynarasaponins from Cynara cardunculus L. reduce chemically induced mutagenesis in vitro.

Author

Krizková L, Mucaji P, Nagy M, and Krajcovic J

Subjects

Acridine Orange toxicity, Animals, Antimutagenic Agents isolation & purification, Euglena gracilis drug effects, Euglena gracilis genetics, Molecular Structure, Ofloxacin antagonists & inhibitors, Ofloxacin toxicity, Saponins isolation & purification, Triterpenes isolation & purification, Antimutagenic Agents pharmacology, Cynara chemistry, Saponins pharmacology, Triterpenes pharmacology

Abstract

Saponins, steroid or triterpene glycosides, are known to have a broad spectrum of biological and pharmacological activities. Three different triterpenoid saponins, marked here as 1s, 2s and 3s, from involucral bracts of Cynara cardunculus L. were isolated and their antimutagenic effect was assessed. Using spectrophotometric method it was shown that all three substances, 1s, 2s and 3s, possess very good absorptive capability. The antimutagenic effect of these substances was estimated against acridine orange (AO)- and ofloxacin-induced damage of chloroplast DNA in Euglena gracilis assay. These cynarasaponins were experimentally confirmed to exhibit different, statistically significant activity in reducing damage of chloroplast DNA of the flagellate E. gracilis induced by AO and ofloxacin (p(t) < 0.05-0.01). Our findings suggest that the antimutagenic effect of 1s, 2s and 3s against AO-induced chloroplast DNA impairment could be a result of their absorptive capacity. As far as ofloxacin is concerned, a possible mechanism of the reduction of the chloroplast DNA lesion was not elucidated so far. To our knowledge, these data demonstrate for the first time the antimutagnic activity of saponins isolated from involucral bracts of C. cardunculus exerted through different mode of action.

Published

2004

13. De-intercalation of ethidium bromide and acridine orange by xanthine derivatives and their modulatory effect on anticancer agents: a study of DNA-directed toxicity enlightened by time correlated single photon counting.

Author

Johnson IM, Kumar SG, and Malathi R

Subjects

Acridine Orange toxicity, Caffeine pharmacology, Ethidium toxicity, Humans, Intercalating Agents toxicity, Models, Biological, Photons, Spectrometry, Fluorescence, Spectrophotometry, Ultraviolet, Theobromine pharmacology, Theophylline pharmacology, Acridine Orange metabolism, Antineoplastic Agents metabolism, DNA metabolism, Ethidium metabolism, Fluorescent Dyes metabolism, Intercalating Agents metabolism, Xanthines pharmacology

Abstract

Time Correlated Single Photon Counting (TCSPC) was used for the first time to analyze the effect/changes in the mode of intercalation of ethidium bromide (EtBr) and acridine orange (AO) to calf thymus DNA brought about due to interaction of naturally occurring methylxanthines such as theophylline (X1), theobromine (X2) and caffeine (X3). UV absorption and fluorescence studies were also carried to observe the behaviour of these xanthines on the modulation of the binding mode of anticancer agents (cisplatin, novantrone, and actinomycin D) and certain intercalating dyes (EtBr and AO) to DNA. In TCSPC analysis we found that when the concentration of the drugs (X1, X2 and X3) increased from 0.025 mM to 2 mM i.e. P/D 2.4 to P/D 0.03 reduction in intercalation of EtBr and AO was observed, suggesting that xanthine derivatives could play very important role in reducing the DNA-directed toxicity in a dose dependent manner. In TCSPC, the amplitude of smaller lifetime component A(1) and higher lifetime component A(2) are attributed to free and intercalated dye concentration and their variation could indicate the process of intercalation or reduced intercalation of EtBr and AO by xanthine derivatives. We found that at the maximum drug concentration the smaller lifetime component A(1) was increased by 7-8% and 17-37% in EtBr and AO intercalated complex respectively. Also the changes in lifetime and fluorescence decay profile were observed for the DNA-intercalated dyes before and after treatment with xanthines. Especially, at maximum P/D 0.03 the lifetime of DNA-intercalated EtBr and AO reduced by 1-2 ns. The present analysis reveals that xanthines are able to interact with free dyes and also with intercalated dyes, suggesting that when they interact with free dyes they might inhibit the further intercalation of dye molecules to DNA and the interaction with intercalated dyes might lead to displacement of the dyes resulting in de-intercalation. The results obtained from UV and fluorescence spectroscopy also support the present investigation of probable interaction of xanthines with the DNA damaging agents in modulating/reducing the DNA-directed toxicity.

Published

2003

14. Antioxidative and antimutagenic activity of yeast cell wall mannans in vitro.

Author

Krizková L, Duracková Z, Sandula J, Sasinková V, and Krajcovic J

Subjects

Acridine Orange toxicity, Animals, Candida chemistry, Candida albicans chemistry, Cell Wall chemistry, DNA Damage, DNA, Chloroplast drug effects, Euglena gracilis drug effects, In Vitro Techniques, Luminol, Mannans isolation & purification, Mutagenicity Tests, Ofloxacin toxicity, Photochemistry, Saccharomyces cerevisiae chemistry, Spectroscopy, Fourier Transform Infrared, Antimutagenic Agents pharmacology, Antioxidants pharmacology, Mannans pharmacology

Abstract

Antioxidative and antimutagenic effect of yeast cell wall mannans, in particular, extracellular glucomannan (EC-GM) and glucomannan (GM-C.u.) both from Candida utilis, mannan from Saccharomyces cerevisiae (M-S.c.) and mannan from Candida albicans (M-C.a.) was evaluated. Luminol-dependent photochemical method using trolox as a standard showed that EC-GM, GM-C.u., M-S.c. and M-C.a. have relatively good antioxidative properties. EC-GM exhibited the highest antioxidative activity, followed by GM-C.u. and M-S.c. M-C.a. showed the least antioxidative activity. These mannans were experimentally confirmed to exhibit different, statistically significant antimutagenic activity in reducing damage of chloroplast DNA of the flagellate Euglena gracilis induced by ofloxacin and acridine orange (AO). We suggest that the antimutagenic effect of EC-GM, GM-C.u., M-S.c. and M-C.a. against ofloxacin is based on their ability to scavenge reactive oxygen radicals. With AO, the reduction of the chloroplast DNA lession could be a result of the absorptive capacity of the mannans. The important characteristics of mannans isolated from the yeast cell walls, such as good water solubility, relatively small molecular weight (15-30kDa), and antimutagenic effect exerted through different mode of action, appear to be a promising features for their prospective use as a natural protective (antimutagenic) agents.

Published

2001

15. Phenolic acids reduce the genotoxicity of acridine orange and ofloxacin in Salmonella typhimurium.

Author

Belicová A, Krizková L, Nagy M, Krajcovic J, and Ebringer L

Subjects

Caffeic Acids pharmacology, Coumaric Acids pharmacology, Dose-Response Relationship, Drug, Mutagenicity Tests, Propionates, Salmonella typhimurium genetics, Acridine Orange toxicity, Antimutagenic Agents pharmacology, Gentisates, Hydroxybenzoates pharmacology, Mutagens toxicity, Ofloxacin toxicity, Salmonella typhimurium drug effects

Abstract

Naturally occurring plant phenolics, p-coumaric acid (PA), caffeic acid (CA), ferulic acid (FA) and gentisic acid (GA) (25-100 nmol/L) had protective effects on acridine orange (AO; 216 mumol/L)- and ofloxacin (3 mumol/L)-induced genotoxicity in Salmonella typhimurium. FA, GA and CA exhibited a significant concentration-dependent protective effect against the genotoxicity of AO and ofloxacin, with the exception of PA, which at all concentrations tested abolished the AO and ofloxacin genotoxicity. UV spectrophotometric measurements showed the interaction of PA, FA, GA and CA with AO but not with ofloxacin; this interaction is obviously responsible for the reduction of AO-induced S. typhimurium mutagenicity. In the case of ofloxacin the antimutagenic effect of PA, FA, GA and CA is assumed to be a result of their ability to scavenge reactive oxygen species (ROS) produced by ofloxacin.

Published

2001

16. Phenolic acids inhibit chloroplast mutagenesis in Euglena gracilis.

Author

Krizková L, Nagy M, Polónyi J, Dobias J, Belicová A, Grancai D, and Krajcovic J

Subjects

Animals, Antioxidants pharmacology, Caffeic Acids pharmacology, Chloroplasts genetics, Coumaric Acids pharmacology, Euglena gracilis drug effects, Mutagenicity Tests, Ofloxacin antagonists & inhibitors, Propionates, Acridine Orange toxicity, Antimutagenic Agents pharmacology, Chloroplasts drug effects, Euglena gracilis genetics, Gentisates, Hydroxybenzoates pharmacology, Mutagens toxicity, Ofloxacin toxicity

Abstract

The mutagenicity (bleaching activity) of ofloxacin (43 microM) and acridine orange (AO) (13.5 microM) in Euglena gracilis is inhibited by plant phenolics. Caffeic acid (CA), p-coumaric acid (PCA), ferulic acid (FA) and gentisic acid (GA) (25, 50, 100 and 250 microM) exhibited a significant concentration-dependent inhibitory effect against ofloxacin-induced mutagenicity, which was very effectively eliminated by the highest concentration of all four of those phenolic acids. The mutagenicity of AO was also significantly reduced in the presence of CA, PCA and FA (25, 50, 100 and 250 microM). However, GA exhibited no significant activity, even at the concentration of 250 microM. Based on the UV spectrophotometric measurements, we suggest that the antimutagenic effect of CA, PCA, FA and GA resulted from the scavenging of reactive oxygen species (ROS) produced by ofloxacin. On the other hand, the reduction of AO-induced mutagenicity correlates with the binding capabilities of CA, PCA and FA, with the exception of GA.

Published

2000

17. Polyploidization induced by acridine orange in mouse osteosarcoma cells.

Author

Kusuzaki K, Takeshita H, Murata H, Gebhardt MC, Springfield DS, Mankin HJ, Ashihara T, and Hirasawa Y

Subjects

Animals, Bone Neoplasms genetics, Cell Division drug effects, DNA, Neoplasm biosynthesis, DNA, Neoplasm genetics, Dose-Response Relationship, Drug, Kinetics, Mice, Mitosis drug effects, Mitotic Index drug effects, Neoplasms, Radiation-Induced genetics, Osteosarcoma genetics, Tumor Cells, Cultured, Acridine Orange toxicity, Polyploidy

Abstract

This study was undertaken to clarify the in vitro effect of acridine orange (AO) on the cell kinetics of mouse osteosarcoma cells, as well as the mechanism of cell growth inhibition induced by AO. A mouse osteosarcoma cell line (MOS), established from a radiation-induced mouse osteosarcoma, was cultured under exposure to 0.05, 0.5, 5, and 50 micrograms/ml of AO, either continuously or for 10 minutes. The cell kinetic analysis was performed using the following parameters: tumor cell growth by trypan blue exclusion test, mitotic activity, DNA synthetic activity by BrdU labeling and DNA ploidy by cytofluorometry. The results showed that continuous exposure to 5 and 50 micrograms/ml of AO or 10 minute exposure to 50 micrograms/ml of AO quickly killed the tumor cells within 12 hours, whereas continuous exposure to 0.5 microgram/ml of AO or 10 minute exposure to 5 micrograms/ml of AO gradually inhibited tumor cell growth. Under the latter conditions, mitotic activity was rapidly and completely inhibited within 48 hours but DNA synthetic activity was not completely inhibited even after 96 hours. DNA ploidy analysis demonstrated that most of the tumor cells arrested at the S-G2 phase after 12 hours, followed by G2 phase arrest after 24 hours and progressive DNA synthesis to a higher DNA ploidy class after 48 to 96 hours. We therefore concluded that a high concentration of AO has a strong cytocidal effect due to cytotoxicity whilst a moderate concentration of AO induces progressive and synchronous polyploidization by mitotic inhibition without DNA damage in MOS cells. We presume that this in vitro effect on MOS cells may be caused by protein synthetic inhibition after transfer RNA inactivation caused by AO binding.

Published

2000

18. Antimutagenicity of a suberin extract from Quercus suber cork.

Author

Krizková L, Lopes MH, Polónyi J, Belicová A, Dobias J, and Ebringer L

Subjects

Acridine Orange toxicity, Animals, Euglena gracilis drug effects, Euglena gracilis genetics, Euglena gracilis radiation effects, Lipids, Mutagens toxicity, Ofloxacin toxicity, Plant Shoots chemistry, Spectrophotometry, Ultraviolet, Superoxides metabolism, Ultraviolet Rays, Antimutagenic Agents pharmacology, Membrane Lipids pharmacology, Mutagenicity Tests methods, Plant Extracts pharmacology, Trees chemistry

Abstract

The possible protective effect of a suberin extract from Quercus suber cork on acridine orange (AO)-, ofloxacin- and UV radiation-induced mutagenicity (bleaching activity) in Euglena gracilis was examined. To our knowledge, the present results are the first attempt to analyse suberin in relation to mutagenicity of some chemicals. Suberin exhibits a significant dose-dependent protective effect against AO-induced mutagenicity and the concentration of 500 micrograms/ml completely eliminates the Euglena-bleaching activity of AO. The mutagenicity of ofloxacin is also significantly reduced in the presence of suberin (125, 250 and 500 micrograms/ml). However, the moderate protective effect of suberin on UV radiation-induced mutagenicity was observed only at concentrations 500 and 1000 micrograms/ml. Our data shows that suberin extract from Q. suber cork possess antimutagenic properties and can be included in the group of natural antimutagens acting in a desmutagenic manner.

Published

1999

19. Antimutagenicity of lignin in vitro.

Author

Ebringer L, Krizková L, Polónyi J, Dobias J, and Lahitová N

Subjects

Acridine Orange toxicity, Animals, Euglena gracilis drug effects, Methylnitronitrosoguanidine toxicity, Salmonella typhimurium drug effects, Superoxides metabolism, Antimutagenic Agents pharmacology, Lignin pharmacology

Abstract

The inhibitory activity of lignin against nitrosoguanidine (MNNG)- and acridine orange (AO)- induced mutagenesis was examined using two microbial systems: green unicellular flagellate Euglena gracilis and Salmonella typhimurium TA100 and TA97. To verify the hypothesis that the above mentioned mutagens may generate some oxidant species and subsequently free radicals, or they may interact with lignin, two physico-chemical measurements were performed. Lignin at a tested concentration (100 micrograms/ml) decreases Euglena-bleaching activity of MNNG by 67.7% and AO by 99.7%. Percentage of MNNG-induced revertants of S. typhimurium was also decreased substantially by lignin. We conclude that our results indicate the possible mechanisms behind the antimutagenic/anticarcinogenic effects of lignin: namely, scavening of reactive oxygen species produced by MNNG and binding of AO itself.

Published

1999

20. Recording of mitochondrial transmembrane potential and volume in cultured rat osteoclasts by confocal laser scanning microscopy.

Author

Fujii H, Cody SH, Seydel U, Papadimitriou JM, Wood DJ, and Zheng MH

Subjects

Acridine Orange analogs & derivatives, Acridine Orange toxicity, Animals, Cattle, Cells, Cultured, Fluorescent Dyes toxicity, Membrane Potentials, Microscopy, Confocal, Microtomy, Mitochondria ultrastructure, Osteoclasts cytology, Osteoclasts drug effects, Rats, Rats, Wistar, Rhodamine 123, Rhodamines toxicity, Time Factors, Mitochondria physiology, Osteoclasts physiology

Abstract

Osteoclasts are multinuclear bone-resorbing cells which contain abundant mitochondria. Morphological studies have suggested that a correlation may exist between mitochondrial concentration and bone resorption by osteoclasts. However, investigation of mitochondrial transmembrane potential (delta psi) and volume has been hampered by the difficulty in obtaining a sufficient number of osteoclasts for assessing these characteristics by flow cytometric analysis. In this study, we have used confocal laser scanning microscopy after loading the cells with Rhodamine 123 and 10-nonyl Acridine Orange to record mitochondrial delta psi and volume, respectively, in isolated rat osteoclasts cultured on bovine bone slices. Optimal staining conditions were found to be 10 micrograms ml-1 for 40 min for Rhodamine, and 1 microM for 10 min for the 10-nonyl Acridine Orange derivative. Two osteoclast populations, whose shape seemed to reflect bone resorption and migratory functions, were identified depending on their shape and on the distribution of the two dye probes. 'Round-shaped' osteoclasts had significantly higher mitochondrial delta psi and volume in the apical regions than in the basolateral portions (p < 0.00001). In contrast, mitochondrial delta psi and volume in 'irregular-shaped' osteoclasts were rather evenly distributed in both these regions (p > 0.05). Our results indicate that there is an apical polarization of mitochondria in osteoclasts corresponding to the energy demands associated with bone resorption.

Published

1997

21. A trial to compare the effects of pH, buffer concentration, and NaCl, on one fluorescent and two bioluminescent bacterial tests for acute toxicity.

Author

Mariscal A, Carnero M, Gómez-Aracena J, and Fernández-Crehuet J

Subjects

Acridine Orange toxicity, Buffers, Ethylenediamines toxicity, Fluorescence, Hydrogen-Ion Concentration, Mercaptoethanol toxicity, Mercuric Chloride toxicity, Bacteria, Luminescent Measurements, Sodium Chloride pharmacology, Toxicology methods

Abstract

Of all the bioassays to determine acute toxicity described in the literature, those that employ bacteria as indicator organisms are usually the most rapid and the most economic, although alone they cannot predict the possible toxic effect of any type of substance. When bioassays are employed to test the toxicity of known substances and of compounds in samples from waste discharges they have to work in very different conditions from those for which they are designed. The effects of three factors, pH, buffer concentration, and NaCl, on the performance of a fluorogenic bioassay based on the beta-glucuronidase activity of Escherichia coli were investigated. The results of this test were compared with those of two known biluminescent bacteria tests. The fluorogenic bioassay has a more restricted optimum pH range, while the influence of buffer concentration was similar for the three tests. E. coli glucuronidase activity was affected at a concentration as low as 128 mg/l of NaCl. Changes in the pH or buffer concentrations or chloride ions, greatly influenced the respectives toxicities of four substances, acridine orange, TEMED, 2-mercaptoethanol, and mercuric chloride.

Published

1997

22. Sources of variability of the Escherichia coli PQ37 genotoxicity assay (SOS chromotest).

Author

Mersch-Sundermann V, Kevekordes S, and Mochayedi S

Subjects

4-Nitroquinoline-1-oxide toxicity, Acridine Orange toxicity, Alkaline Phosphatase biosynthesis, Buffers, Colony-Forming Units Assay, Daunorubicin toxicity, Dose-Response Relationship, Drug, Epichlorohydrin toxicity, Fluorenes toxicity, Hydrogen-Ion Concentration, Methyl Methanesulfonate toxicity, Methylcholanthrene toxicity, Mutagens toxicity, Reproducibility of Results, Sodium Dodecyl Sulfate pharmacology, Time Factors, beta-Galactosidase biosynthesis, Escherichia coli genetics, Mutagenicity Tests, SOS Response, Genetics drug effects

Abstract

To determine the variability in test results obtained with the Escherichia coli PQ37 genotoxicity assay (SOS chromotest) when varying the test protocol, we examined the influences of sodium dodecylsulfate (SDS) concentrations, of buffer pH and composition on the enzyme assays, the effects of E. coli PQ37 density and culture conditions on the expression and/or determination of alkaline phosphatase (ap) and beta-galactosidase (beta-g) activities, the calculated induction factors (IF) and the SOS-inducing potentials (SOSIP). Initially, we used 0-190 ng (0-1 nmole) 4-nitroquinoline-1-oxide (4-NQO) as a reference compound for the standard procedure in the absence of metabolic activation. Subsequently, to evaluate the results of protocol variations we examined several mutagenic compounds of differing chemical classes using both the standard and a modified assay procedure. We observed the highest enzyme activities using 1 mg SDS per tube and calibrating the ap buffer to pH 8.05 and the beta-g buffer to pH 7.75. The longer the incubation period, the higher the enzyme activities. However, with respect to IF and SOSIP there is no reason to incubate in excess of 90 min. We found no significant differences in the IF and SOSIP values when varying substrate conversion times. There was, however, a definite decrease in beta-g activity when extended substrate incubation times were used. Higher enzyme activities are obtained when the bacterial count is increased. Using lower bacterial counts the enzyme activities decreased, but the sensitivity of E. coli towards genotoxic compounds increased.

Published

1991

23. The induction of chromosomal aberrations and SCEs by visible light in combination with dyes. II. Cell cycle dependence, and the effect of hydroxyl radical scavengers during light exposure in cultures of Chinese hamster ovary cells sensitized with acridine orange.

Author

Uggla AH

Subjects

Animals, Cell Cycle, Cell Line, Chromosomes radiation effects, Cricetinae, Dose-Response Relationship, Radiation, Free Radicals, Hydroxides, Hydroxyl Radical, Light, Mannitol pharmacology, Thiourea analogs & derivatives, Thiourea pharmacology, Acridine Orange toxicity, Chromosome Aberrations, Chromosomes drug effects, Sister Chromatid Exchange

Abstract

Chinese hamster ovary (CHO) cells were synchronized by mitotic shake-off, treated with the fluorochrome acridine orange (AO; 0.5 micrograms/ml), washed free of excess dye and subsequently exposed to visible light (2 X 40 W/8 Wm-2). The light exposure was performed on cells in the G1, G1/S, S or G2 phase of the cell cycle. AO + light induced high frequencies of aberration in the S phase and even higher in the G1 phase. The aberrations observed were all of the chromatid type. The chromosome-type aberrations (dicentrics, rings) obtained when cells in the G1 phase were exposed to X-rays were not found after corresponding treatments with AO + light. With the exception of an increased frequency of gaps, no chromosomal aberrations were induced in G2-phase cells. Sister-chromatid exchanges were efficiently produced by the photodynamic system in the G1, G1/S and S phase of the cell cycle. In other experiments, AO-treated unsynchronized CHO cells were exposed to light in the presence of the hydroxyl radical scavengers mannitol (100 mM) and 5-dimethyl thiourea (100 mM). In parallel experiments these scavengers were found to reduce markedly the chromosome breaking effects by X-rays but had no influence on the photodynamic induction of chromosomal alterations. The results presented show that the visible light-induced chromosomal alterations in CHO cells sensitized with the fluorochrome AO are obtained by an S-dependent mechanism. Furthermore, the results indicate that the hydroxyl free radical does not play a major role in the production of chromosomal alterations by AO + light.

Published

1990

24. Differences between drosophila melanogaster and its sibling species D. simulans in sensitivity to acridine orange treatment.

Author

Alba P, Ferrés MD, Xamena N, Creus A, and Marcos R

Subjects

Animals, Dose-Response Relationship, Drug, Drosophila melanogaster drug effects, Female, Larva drug effects, Male, Acridine Orange toxicity, Aging, Drosophila drug effects

Abstract

Larvae and adults of D. melanogaster and D. simulans were fed with acridine orange, in order to test sensitivity differences between the species. Our results show that, of the two species, D. simulans is more resistant in the larval stages, and D. melanogaster is more resistant in the adult stage. Furthermore, adult males of both species are more sensitive than adult females.

Published

1983

25. Patterns of mutagen binding and penetration in multicell spheroids.

Author

Olive PL

Subjects

4-Nitroquinoline-1-oxide metabolism, 4-Nitroquinoline-1-oxide toxicity, Acridine Orange metabolism, Acridine Orange toxicity, Animals, Biological Transport, Cell Adhesion, Cell Survival drug effects, Cells, Cultured, Cricetinae, Doxorubicin metabolism, Doxorubicin toxicity, Furylfuramide metabolism, In Vitro Techniques, Methylnitronitrosoguanidine metabolism, Methylnitronitrosoguanidine toxicity, Mutagens toxicity, Mutagens metabolism

Abstract

Mutagen damage to a cell located at some distance from the site of application of the mutagen will depend, in part, on how effectively it can penetrate through cells composing different tissues. Chinese hamster V79 spheroids were used to model mutagen "penetrability" by providing several layers of cells growing with tissue-like packing. By treating cells of intact and trypsin-dissociated spheroids at the same drug-to-cell ratio, an estimate relative sensitivity to nine mutagens was determined. The effective toxicity index (ETI) was defined as the ratio of the concentrations of mutagen required to kill 50% of cells (measured after a 1-hr treatment at 37 degrees C) in dissociated versus intact spheroids and similarly for mutation at the HGPRT locus (EMI). Values for ETI were consistent with values for EMI and varied from 0.01 for 4NQO to 2 for AF-2. Direct information on mutagen penetration was obtained for fluorescent mutagens by flow cytometry. Values for EFI (effective fluorescence index) varied from 0.07 for Hoechst 33342 to 1 for AF-2. These results can be interpreted as reflecting differences in ability of mutagens to penetrate spheroids; some direct-acting mutagens are likely to be effective only near their site of application (ie, UV, Hoechst 33342, 4NQO) while others are able to penetrate through successive cell layers with little difficulty (ie, monobromobimane, AF-2).

Published

1986

26. Photodynamic effects of dyes on bacteria. IV. Lethal effects of acridine orange and 460- or 500-nm monochromatic light in strains of Escherichia coli that differ in repair capability.

Author

Hass BS and Webb RB

Subjects

Dose-Response Relationship, Radiation, Lethal Dose 50, Phenotype, Acridine Orange toxicity, DNA Repair, Escherichia coli genetics, Light

Published

1981

27. Comparison of acridine orange and Giemsa stains in several mouse bone marrow micronucleus assays--including a triple dose study.

Author

Tinwell H and Ashby J

Subjects

Animals, Bone Marrow drug effects, Mice, Mice, Inbred C57BL, Mutation, Acridine Orange toxicity, Azure Stains toxicity, Micronucleus Tests, Phenothiazines toxicity

Abstract

Data from four mouse bone marrow micronucleus assays are presented in which sister slides were stained with Giemsa or Acridine Orange (AO). These data are used to support our decision to change from Giemsa stain to AO when conducting rodent bone marrow micronucleus assays. The AO method leads to definitive assessments of the incidence of micronucleated polychromatic erythrocytes on a slide, and in so doing, it saves reading time and increases confidence in data. Preliminary experiments with DMBA using the triple-dose/single sample protocol of MacGregor are also described, and it is concluded that this protocol shows great promise.

Published

1989

28. Growth inhibiting effect of acridine orange in the house fly Musca domestica L.

Author

Khan BA, Mohiuddin S, and Qureshi SA

Subjects

Animals, Houseflies drug effects, Larva drug effects, Larva physiology, Acridine Orange toxicity, Houseflies growth & development

Published

1982

29. Biological effects of dyes on bacteria. VI. Mutation induction by acridine orange and methylene blue in the dark with special reference to Escherichia coli WP6 (polA1).

Author

Webb RB and Hass BS

Subjects

Darkness, Escherichia coli genetics, Mutagenicity Tests, Species Specificity, Acridine Orange toxicity, Coloring Agents toxicity, Escherichia coli drug effects, Methylene Blue toxicity, Mutagens, Mutation

Abstract

Acridine orange (AO) and methylene blue (MB) in the dark were shown to be weak to moderate mutagens (induction of resistance to T5 phage) in repair-deficient strains of Escherichia coli B/r. However, strain WP2 (wild-type) was not mutated by AO in the dark, in confirmation of earlier data. The presence of 2 microM AO reduced by 41% the spontaneous mutation rate in strain WP2, from 4.1 to 2.4 mutants/10(8) cells/generation. In the polymerase I-deficient strain WP6 (polA1), 2 microM AO increased the mutation rate in the dark 14-fold. We propose that both spontaneous and AO-induced mutagenesis in the absence of light occur at the site of semiconservative DNA replication. If the intercalation mechanism for the effects in the absence of light is valid, the wild-type strain (WP2) may be resistant to frameshift mutagenesis induced by intercalated compounds, while the polymerase I-deficient strain (WP6) may be highly suceptible to the presence of an intercalated dye such as AO at the DNA-replication fork. MB and AO likely act through different mechanisms since MB is only a moderate mutagen in strain WP6 and the other repair-deficient strains tested.

Published

1984

30. High-frequency induction of nodulation and nitrogen fixation mutants of Rhizobium japonicum.

Author

Skogen-Hagenson MJ and Atherly AG

Subjects

Acridine Orange toxicity, Ethidium toxicity, Fatty Alcohols toxicity, Plant Physiological Phenomena, Rhizobium drug effects, Rhizobium metabolism, Mutation, Nitrogen Fixation, Rhizobium genetics, Sodium Dodecyl Sulfate

Abstract

More than 50 symbiotic mutants of Rhizobium japonicum were isolated by purported plasmid-curing techniques. Wild-type R. japonicum strains were grown in liquid culture at 28 or 36 degrees C in different concentrations of acridine orange, ethidium bromide, or sodium dodecyl sulfate for selection of mutants. The symbiotic traits of 133 isolates from nine treatment groups were determined. Forty-two isolates were Nod- Nif+, seven were Nod+ Nif-, and two were Nod- Nif-. The nifDH genes were deleted in three mutants and consequently showed no hybridization to a nifDH probe. None of these mutants showed any detectable loss of plasmid DNA.

Published

1983

31. Genotoxicity of acridine orange and acriflavine in Drosophila melanogaster.

Author

Alba P, Ferrés MD, Xamena N, Creus A, and Marcos R

Subjects

Animals, Female, Male, Mutagenicity Tests, Sex Chromosomes drug effects, Acridine Orange toxicity, Acriflavine toxicity, Aminoacridines toxicity, Drosophila melanogaster drug effects

Published

1983