Genetic Toxicology References 

 

a:

1986
a report of the U.S. Environmental Protection Agency Gene-Tox Program

b:
McCann, J., Choi, E., Yamsaki, E., and Ames, B.N.
1975.
Detection of carcinogens as mutagens in the Salmonella/microsome test: assay of 300 chemicals.
Proc. Natl. Acad. Sci. USA 72, 5135-5139.

c:

IARC Monographs on the evaluation of Carcinogenic Risks to Humans: Genetic  abd Related Effects
IARC Monographs, 1-42, 1-83.

1:
Von der Hude, W., Behm, C., Grtler, R. and Basler, A.
1988.  
Evaluation of the SOS Chromotest.
Mutation Res., 203, 81-94. 

2:
Quillardet, P., de Bellecombe, C. and Hofnung, M.
1985.
The SOS Chromotest, a colorimetric bacterial assay for genotoxins : validation study with 83 compounds.
Mutation Res. 147, 79-95.

3:
Ohta, T., Nakamura, N., Moriya, M., Shirasu, Y. and Kada, T.
1984.
The SOS function inducing activity of chemical mutagens in Escherichia coli.
Mutation Res. 131, 101-109.

4:
Mamber S. W., Okasinski W. G., Pinter C. D. and Tunac J. B.
1986.
The Escherichia coli K-12 SOS Chromotest agar spot test for simple, rapid detection of genotoxic agents.
Mutation Res., 171, 83-90.

5:
Podger, D.M. and Hall, R.M.
1984.
Induction of SOS functions is not required for recA+ dependent mutagenenicity of 9-aminoacridine in Salmonella thyphimurium strain trp E8.
Mutation Res. 131, 115-121.

6:
Fish, F., Lampert, I., Halachmi, A., Riesenfeld, G. and Herzberg, M.
1987.
The SOS Chromotest kit: A rapid method for the detection of genotoxicity.
Toxicity Assessment, 2, 135-147.

7:
Krivobok, S., Olivier, Ph., Marzin, D.R., Seigle-Murandi, F. and Steiman, R.
1987.
Study of the genotoxic potential of 17 mycotoxins with the SOS Chromotest.
Mutagenesis, 2, 433-439.

8:
Auffray, Y. and Boutibonnes, P.
1986.
Evaluation of the genotoxic activity of some mycotoxins using Escherichia coli in the SOS spot test.
Mutation Res., 171, 79-82. 

9:
Marzin D. R., Olivier P. and Vophi H.
1986.
Kinetic determination of enzymatic activity and modification of the metabolic activation system in the SOS Chromotest,
Mutation Res., 164, 353-359.

10:
Thybaud-Lambay, V., Declotre, F. and Courtois, Y.A.
1986.
Role of the uvr gene in the SOS function inducing activity of two tryptophan pyrolysis products, Trp-P-1 and Trp-P-2, in Escherichia coli K12.
Mutation Res.173, 177-180.

11:
Riesenfeld, G., Kirsch, I. and Weissman, S.H.
1985.
Detection and quantitation of aflatoxin B1 in orange juice by SOS Chromotest.
Food additives and contaminants, 2, 253-257.

12:
De Flora, S., De Renzi, G.P., Camoirano, A., Astengo, M, Basso, C., Zanacchi, P. and  Bennicelli, C.
1985.
Genotoxicity assay of oil dispersants in bacteria (mutation, differential lethality, SOS DNA-repair) and yeast (mitotic crossing over).
Mutation Res. 158, 19-30.

13:
Rueff J., Laires A., Borba H., Chaveca T., Inacia Gomes M. and Halpern M.
1986.
Genetic toxicology of flavonoids : the role of metabolic conditions in the induction of reserve mutation, SOS functions and sister-chromatid exchanges,.
Mutagenesis, 1, 179-183.

14:
Quillardet, P., Jenek, J., Demerseman, P., Royer, R. and Hofnung, M.
1986.
Genotoxic activity of two furans analogs of benzo(a)pyrene and their 2-nitro derivatives.
Mutation Res., 172, 223-230.

15:
Koukalova, B., Soska, J., Kuhrova, V. and Reich, J.
1986.
SOS induction of the gene sulA is partly inhibited in Escherichia coli K12 cells overproducing the RecA protein,
Mutation Res, 175, 17-21.

16:
Llagostera M., Garrido S., Guerrero R. and Barbe J.
1986.
Induction of SOS genes of Escherichia coli by chromium compounds, Environmental
Mutagenesis, 8, 571-577.

17:
Rempola B., Demkowicz-Dobrzanski K. and Fikus M.
1986.
Genotoxicity assessment of low-molecular weight interferon inducers by the SOS Chromotest.
Mutation Res., 172, 47-50.

18:
Bosworth, D. and Venitt, S.
1986.
Testing human faecal extracts for genotoxic activity with the SOS Chromotest : the importance of controlling for faecal enzyme activity.
Mutagenesis. 1, 143-149.

19:
Venitt S. and Bosworth D.
1986.
Further studies on the detection of mutagenic and genotoxic activity in human faeces : aerobic and anaerobic fluctuation tests with S. Typhirmurium and E. coli and the SOS Chromotest.
Mutagenesis, 1, 49-64.

20:
Miertus S., Vojtekova H., Vanova R.
1986.
Change of mutagenic activity of N-methyl-N-nitrosoguanidine during its decomposition studied by SOS Chromotest,
Neoplasma, 33, 447-455.

21:
Vojtekova, H. and Miertus, S.
1986.
Influence of ascorbic acid on the mutagenicity of N-methyl-N-nitrosoguanidine and nitrofurans studied by SOS Chromotest.
Neoplasma, 33, 691-698.

22:
Sturdikova, M., Fuskova, A., Prikrylova, V., Pudojil, M. and Fuska, J.
1986.
Cytotoxic and mutagenic in vitro effect of 7-0-epoxyalkyl derivatives of daunomycinone: Part IX,
Neoplasma, 33, 297-305.
 

23:
Dayan, J., Deguinguand, S., Truzman, C. and Chevron, M.
1987.
Application of the SOS Chromotest to 10 pharmaceutical agents.
Mutation Res., 187, 55-66.

24:
Quillardet P. and Hofnung M.
1987.
Inclution of the SOS system in a dam 3 mutant : a diagnostic straim for chemicals causing DNA mismatches,
Mutation Res., 177, 17-26.

25:
Basler, A., Von der Hude, W. and Scheutwinkel, M.
1987.
Screening of the food additive propionic acid for genotoxic properties.
Fd. Chem. Toxic., 25, 287-290.

26:
Miertus, S., Svorc, J., Sturdik, E. and Vojtekova, H.,
1987.
Use of specific bacteria for the determination of mutagenic and carcinogenic compounds,
Anal. Chem., 59, 504-508.

27:
Sturdik, E., Benova, M., Miertus, S., Balaz, S., Rosenberg, M., Sturdikova, M., Ebringer, L., Stibranyi, L., Ilavsky, D. and Vegh, D.
1986.
Relationships between structure of 5-Nitro-2-furyl-ethylenes and their SOS function inducing activities in Escherichia coli,
Chem. Biol. Interactions, 58, 69-78.

28:
Otha, T., Nakamura, N., Moriya, M. and Shirasu, Y.
1984.
Detection of chemical mutagens by the SOS Chromotest.
Environmental Mutagen Research Communications, 6, 93-98.

29:
Olivier, Ph. and Marzin, D.
1987.
Study of genotoxic potential of 48 inorganic derivatives with the SOS Chromotest.
Mutation Res., 189, 263-269.

30:
Llagostera, M., Garrido, S., Barb, J., Guerrero, R. and Rueff, J.
1987.
Influence of S9mix in the induction of SOS system by quercetin,
Mutation Res., 191, 1-4.

31:
Bosworth, D., Crofton-Sleigh, C. and Venitt, S.
1987.
A forward mutation assay using ampicillin-resistance in Escherichia coli designed for investigating the mutagenicity of biological samples.
Mutagenesis, 2, 455-467.

32:
Potenberg, J., Von der Hude, W., Bauszus, M., Basler, A. and Kahl, R.
1988.
Enhancement and inhibition of benzo(a)pyrene induced SOS function in E. coli by synthetic antioxidants.
Mutation Res. 207, 7-11.

33:
Lecointe, P.
1984.
Induction of the SFIA SOS repair function by psoralens in the dark.
Mutation Res. 131, 111-113. 

34:
Arnaise, S., Boeuf, H., Buisson, J.P., Cantat, N., Demerseman, P., Einhorn, J. and Lamotte, G., Lemelin, M., Brimer, P.A., Perdue, S.W., Hsie, A.W., Royer, R., Kelly, F., Hofnung, M.
1986.
Genotoxic activities of 2-nitronaphthofurans and related molecules.
Mutagenesis, 1, 217-229.

35:
Von der Hude, W., Scheutwinkel-Reich, M. and Braun, R.
1986.
Bacterial mutagenicity of the tranquilizing constituents of Valerianaceae routs.
Mutation Res. 169, 23-27.

36:
Scheutwinkel, M., Von der Hude, W. and Basler, A.
1986.
Studies on the genotoxicity of the anabolic drugs trenbolone and zeranol.
Arch. Toxicol. 59, 4-6.

37:
Venitt, S. and Crofton-Sleigh, C.
1987.
The toxicity and mutagenicity of the antitumor drug 5-aziridino-2,4-dinitrobenzamide (CB1954) is greatly reduced in nitroreductase-deficient strain of E. coli.
Mutagenesis, 2, 375-381.

38:
Van Sluys, M.A., Costa de Oliviera, R., Felzenszwalb, I., Martins Menk, C. F. and Alcantara-Gomez, R.
1986.
Ascorbate-copper induced DNA lesions and repair in Escherichia coli K12 cells.
Carcinogenesis, 7, 197-200.

39:
Tudek, B., Gajewska, J., Szczypka, M., Rahden-Staron, I. and Szymczyk, T.,
1988.
Screening for genotoxic activity of amitraz with short-term bacterial assays.
Mutation Res., 204, 585-591.

40:
Quillardet, P., Bilger, C., Demerseman, P., Royer, R. and Hofnung, M.
1988.
Evaluation of the genotoxic activity of 2-nitroanthrafurans.
Mutation Res., 204, 141-147.

41:
Podger, D.M. and Hall, R.M.
1985.
Induction of the SOS response by ICR191 does not influence frameshift mutagenesis at the his C3076 marker of Salmonella typhimurium .
Mutation Res., 142, 87-91

42:
De Meo, M., Miribel, V., Botta, A., Laget, M. and Dumenil, M.
1988.
Applicability of the SOS Chromotest to detect urinary mutagenicity caused by smoking.
Mutagenesis, 3, 277-283.  

43:
Kohn, A., Donchin, M., Jacobs, J.Y., Horn, Y., Giber, Y., Fish, F., Riesenfeld, G., Kirenberg, F., Lampert, I., Hlachmi, A., and Herzberg, M.
1988.
Detection of genotoxic substances in cancer patients receiving antineoplastic drugs.
Annals of the New York Academy of Sciences, 534, 776-791.

44:
Eder, E., Deininger, C. and Ktt, W.
1989.
Genotoxicity of monofunctional methanesulfonates in the SOS Chromotest as a function of alkylation mechanisms. A comparison with the mutagenicity in S. typhimurium TA100.
Mutation Res. 211, 51-64.

45:
Chen, Z., Xiao, F. and Zujia S.
1988.
The role of the uvrA gene in the screening of genotoxins in the SOS Chromotest.
Acta Microbiologica Sinica, 28, 313-318.

46:
Dale, L.D., Widdick, D.A., Biol, G.I. and Edwards D.I.
1989.
Comparative DNA damage and repair induced by misonidazole CB1954 and RSU1069.
Int. J. Radiation Oncology Biol. Phys., 16, 995-999.

47:
Eder, E., Favre, A., Deininger, C. Hahn, H. and Ktt, W.
1989.
Induction of SOS repair by monofunctional methanesulfonates in various Escherichia coli strains. Structure-activity relationships in comparison with mutagenicity in Salmonella typhimurium..
Mutagenesis, 4, 179-186.

48:
Mersh-Sundermann, V., Hofmeister, A., Mller, G. and Hof, H.
1989.
Examination of mutagenicity of organic microcontaminations of the environment. III. Communication: The mutagenicity of selected herbicides and insecticides with the SOS Chromotest.
Int. J. Hygiene and Environ. Medicine, 189, 135-146.

49:
Mamber, S.W., Okasinski, W.G., Pinter, C.D. and Tunac, J.B.
1987.
Bacterial DNA reactivity of the novel antibiotics veractamycins A and B.
J. of Antibiotics, 40, 1044-1049.

50:
Janz, S. Wolff, G. and Storch, H.
1988.
SOS Chromotest, a quantitative short-term bacterial assay for the detection of genotoxic compounds in an automated version adaptated to bioscreen anlyzer system.
Zentralbl. Mikrobiol., 143, 645-649.

51:
Mersh-Sundermann, V., Mller, G. and Hofmeister, A.
1989.
Examination of mutagenicity of organic microcontaminations of the environment. IV. Communication: The mutagenicity of halogenated aliphatic hydrocarbons with the SOS Chromotest.
Int. J. Hygiene and Environ. Medicine, 189, 135-146.

52:
Tikkanen, L. and Kronberg, L.
1990.
Genotoxic effects of various butenoic acids identified in chlorinated drinking water.
Mutation Res., 240, 109-116.

53:
Venier, P., Montini, R., Zordan, M., Clonfero, E., Paleologo, M. and Levis, A. G.
1989.
Induction of the SOS response in Escherichia coli strain PQ37 by 16 chemical compounds and human urine extracts.
Mutagenesis, 4, 51-57.

54:
Ysern, P., Clerch, B., Castano, M., Gibert, I., Barb, J. and Llagostera, M.
1990.
Induction of SOS genes in Escherichia coli and mutagenesis in Salmonella typhimurium by fluoroquinolones.
Mutagenesis, 5, 63-66.

55:
Mamber, S.W., Brookeshire, K.W. and Forenza, S.
1990.
Induction of the SOS response in Escherichia coli by azidothymidine and dideoxynucleosides.
Antimicrobial Agents and Chemotherapy, 34, 1237-1243.

56:
Von Poser, G., Andrade, H.H.R., Da Silva, K.V.C.L., Henriques, A.T. and Henriques, J.A.P.
1990.
Genotoxic, mutagenic and recombinogenic effects of rauwolfia alkaloids.
Mutation Res. 232, 37-43.

57:
Valsa, J.O., Felzenzwalb, I. Caldeira de Araujo, A. and Alcantara-Gomes, R.
1990.
Genotoxic effect of a keto-aldehyde produced by thermal degradation of reducing sugars.
Mutation Res., 232, 31-35.

58:
Vasilieva S., Tanirbergenov,T., Abilev, S., Migachev, G. and Huttunen, M.T.
1990.
A comparative study of mutagenic and SOS-inducing activity of biphenyls, phenanthrenequinones and fluorenones.
Mutation Res., 244, 321-329.

59:
Von der Hude, W., Seelbach, A. and Basler, A.
1990.
Epoxides: comparison of the induction of SOS repair in Escherichia coli PQ37 and the bacterial mutagenicity in the Ames test.
Mutation Res., 231, 205-218.

60:
Couture, P., Blaise, C., Cluis, D. and Bastien, C.
1989.
Zirconium toxicity assessment using bacteria, algae and fish assays.
Water, Air and Soil Pollution. 47, 87-100.

61:
Eder, E., Favre, A., Stichtmann, C. and Deininger.
1989.
Induction of sfiA SOS function by peroxides using three different E. coli strains.
Toxicology letters. 48, 225-234.

62:
Gajewska,J., Szczypka, M., Tudek, B. and Szymczyk, T.
1990.
Studies on the effect of ascorbic acid and selenium on the genotoxicity of nitrofurans: nitrofurazone and furazolidone.
Mutation Res. 232, 191-197.

63:
Goerlich, O., Quillardet, P. and Hofnung, M.
1989.
Induction of the SOS response by hydrogen peroxide in various Escherichia coli mutants with altered protection against oxidative DNA damage.
J. Bacteriol. 171, 6141-6147.

 64:
Xu, H.H. and Schurr, K.M.
1990.
Genotoxicity of 22 pesticides in microtitration SOS chromotest.
Toxicity Assessment. 5: 1-14.

 65:
Schleibinger, H., Leberl, C. and Rueden, H.
1989.
Nitrated polycyclic aromatic hydrocarbons (nitro-PAH) in suspended particulate matter. II: comparison of the mutagenic activity of nitro-PAH in the Ames-, the SOS-repair and the SCE-assay.
Int. J. Hygiene and Environ. Medicine, 188, 421-438.

66:
Van Aswegen, C.H., Nieuwoudt, L.B., Van Rensburg, H.G.J., Stein, P.L. and Du  Plessis, D.J.
1990.
Estradiol and catecholestradiols as possible genotoxic carcinogens.
Clinical Physiology and Biochemistry. 7, 34-39.

67:
Mc Daniels, A.E., Reyes, A.L., Wymer, L.J., Rankin, C.C. and Stelma Jr. G.N.
1990.
Comparison of the Salmonella (Ames) test, Umu tests, and the SOS chromotest for detecting genotoxins.
Enronmental Molecular Mutagenesis. 16: 204-215.

68:
Glatt, H., Pie, A., Pauly, K., Steinbrecher, T. Schrode, R., Oesch, F. and Albrecht, S.
1991.
Fjord- and bay-region diol-epoxides investigated for stability, SOS induction in Escherichia coli, and mutagenicity in Salmonella typhimurium and mammalian cells.
Cancer Res. 51: 1659-1667.

69:
Henschler, D., Eder, E., Epe, B. and Schiffmann, D.
1991.
Genotoxic and cell-transforming properties of (trans, trans)-muconaldehyde.
Mutation Res. 248: 35-43.

70:
Widdick, D.A. and Edwards, D.I.
1991.
A comparison of the relative activities of 8 radiosensitizers in the SOS chromotest.
Mutation Res. 259: 89-93.

71:
Mersch-Sundermann, V., Kevekordes, S. and Mochayedi, S.
1991.
Sources of variability of the Escherichia coli PQ37 genotoxicity assay (SOS Chromotest).
Mutation Res. 252: 51-60.

72:
Moreno, P.R.H., Vargas, V.M.F., Andrade, H.H.R., Henriques, A.T. and Henriques  J.A.P.
1991.
Genotoxicity of the boldine aporphine alkaloid in prokaryotic and eukaryotic organisms.
Mutation Res. 260: 145-152.

73:
Nair, P.P., Shami, S., Sainz E. Judd, J.T., Taylor, P. R. and Schatzkin, A.
1991.
Quantitative assessment of the genotoxicity of fecapentaenes.
Mutation Res. 260: 153-157.

74:
Eder, E., Deininger, C. and Muth, D.
1991.
Genotoxicity of P-nitrocinnamaldehyde and related °, §-unsatured carbonyl compounds in two bacterial assays.
Mutagenesis. 6: 261-269.

75:
Mersch-Sundermann,V., Kern, S. and Wintermann, F.
1991.
Genotoxicity of nitrated polycyclic aromatic hydrocarbones and related structures on Escherichia coli PQ37 (SOS chromotest).
Enronmental Molecular Mutagenesis. 18: 41-50.

76: Eder, E., Hoffman, C. and Deininger, C.
1991.
Identification and characterization of deoxyguanosine adducts of methyl vinyl ketone and ethyl vinyl ketone. Genotoxicity of the ketones in the SOS chromotest.
Chem. Res. Toxicol. 4: 50-57.

77:
Hahn, H., Eder, E. and Deininger, C.
1991.
Genotoxicity of 1,3-dichloro-2-propanol in the SOS chromotest and in the Ames test. Elucidation of the genotoxic mechanism.
Chem Biol. Interact. X: xx-xx.

78:
Eder, E., Hoffman, C., Bastian, H., Deininger, C. and Shekenbach, S.
1990.
Molecular mechanisms of DNA damage initiated by °,§-unsatured carbonyl compounds as criteria for genotoxicity and mutagenicity.
Environmental Health Perspectives. 88: 89-106.

79:
Drobnik, J., Koutecka, E., Noskova, D. and Saudek, V.
1987.
Chromotest estimation of SOS functions as a screening method for antitumor platinium complexes.
Neoplasma, 34: 379-387.

80:
Blakeborough, M.H., Owen, R.W. and Bilton, R.F.
1989.
ree radical generating mechanisms in the colon: their role in the induction and promotion of colorectal cancer?
Free Rad. Res. Comms. 6: 359-367.

81:
Mersch-Sundermann,V., Mochayedi, S. and Kevekordes, S.
1992.
Genotoxicity of polycyclic hydrocarbons in Escherichia coli PQ37.
Mutation Res. 278: 1-9.

82:
Pommery, J., Imbenotte, M., Urien, A.F., Marzin, D. and Erb, F.
1989.
SOS chromotest study concerning some appreciation criteria of humic substances' genotoxic potency.
Mutation Res. 223, 183-189.

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