Advanced search
Publication Cover
Xenobiotica
the fate of foreign compounds in biological systems
Volume 1, 1971 - Issue 3
Submit an article Journal homepage
36
Views
115
CrossRef citations to date
0
Altmetric
Research Article

Mechanisms of Azo Reduction by Streptococcus faecalis II. The Role of Soluble Flavins

R. Gingell National College of Food Technology, University of Reading, Weybridge, Surrey
&
R. Walker Department of Biochemistry, University of Surrey, Guildford, Surrey
Pages 231-239 | Received 19 Aug 1971, Published online: 15 Sep 2008

Citations (115)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (21)

Priyakant Pushkar & Arvind Kumar Mungray. (2016) Real textile and domestic wastewater treatment by novel cross-linked microbial fuel cell (CMFC) reactor. Desalination and Water Treatment 57:15, pages 6747-6760.
Read now
Marta Roldo, Eugen Barbu, James F Brown, David W Laight, John D Smart & John Tsibouklis. (2007) Azo compounds in colon-specific drug delivery. Expert Opinion on Drug Delivery 4:5, pages 547-560.
Read now
HARPREET SINGH RAI, MANI SHANKAR BHATTACHARYYA, JAGDEEP SINGH, T. K. BANSAL , PURVA VATS & U. C. BANERJEE. (2005) Removal of Dyes from the Effluent of Textile and Dyestuff Manufacturing Industry: A Review of Emerging Techniques With Reference to Biological Treatment. Critical Reviews in Environmental Science and Technology 35:3, pages 219-238.
Read now
K. Takekawa, K. Sugihara, S. Kitamura & S. Ohta. (2001) Enzymatic and non-enzymatic reduction of brucine N -oxide by aldehyde oxidase and catalase. Xenobiotica 31:11, pages 769-782.
Read now
King‐Thom Chung. (2000) Mutagenicity and carcinogenicity of aromatic amines metabolically produced from Azo Dyes. Journal of Environmental Science and Health, Part C 18:1, pages 51-74.
Read now
MarkA. Brown & StephenC. De Vito. (1993) Predicting azo dye toxicity. Critical Reviews in Environmental Science and Technology 23:3, pages 249-324.
Read now
King-Thorn Chung, S. Edward Stevens & Carl E. Cerniglia. (1992) The Reduction of Azo Dyes by the Intestinal Microflora. Critical Reviews in Microbiology 18:3, pages 175-190.
Read now
C. Yatome, T. Ogawa, H. Hayashi & T. Ogawa. (1991) Microbial reduction of AZO dyes by several strains. Journal of Environmental Science and Health . Part A: Environmental Science and Engineering and Toxicology 26:4, pages 471-485.
Read now
Walter G. Levine. (1991) Metabolism of AZO Dyes: Implication for Detoxication and Activation. Drug Metabolism Reviews 23:3-4, pages 253-309.
Read now
Kathryn E. McLane, Jed Fisher & K. Ramakrishnan. (1983) Reductive Drug Metabolism. Drug Metabolism Reviews 14:4, pages 741-799.
Read now
R. Jonen-kern, H. G. Jonen, R. R. Schupp, K. Minck, G. F. Kahl & K. J. Netter. (1978) Reductive Drug Metabolism in Isolated Perfused Rat Liver under Restricted Oxygen Supply. Xenobiotica 8:5, pages 271-280.
Read now
R. J. Allan & J. J. Roxon. (1977) The Effect of Dioctyl Sodium Sulphosuccinate on Tartrazine Azo reduction by Intestinal Bacteria. Xenobiotica 7:3, pages 181-186.
Read now
JosephP. Brown & Carl Lamanna. (1977) Role of gut bacterial flora in nutrition and health: A review of recent advances in bacteriological techniques, metabolism, and factors affecting flora composition. C R C Critical Reviews in Food Science and Nutrition 8:3, pages 229-336.
Read now
P. Dubin & K. L. Wright. (1975) Reduction of Azo Food Dyes in Cultures of Proteus vulgaris. Xenobiotica 5:9, pages 563-571.
Read now
R. J. Allan & J. J. Roxon. (1974) Metabolism by Intestinal Bacteria : The Effect of Bile Salts on Tartrazine Azo Reduction. Xenobiotica 4:10, pages 637-643.
Read now
Ralph Gingell & J. W. Bridges. (1973) Intestinal Azo-reduction and Glucuronide Conjugation of Prontosil. Xenobiotica 3:9, pages 599-604.
Read now
H. H. W. Thijssen & P. Th. Henderson. (1973) Interference of the Reduction of p-Nitrobenzoate in E. Coli by Nitrofurantoin. Xenobiotica 3:6, pages 399-407.
Read now
Hasse Schröder & Anna K. Johansson. (1973) Redox Potential in Caecal Contents of the Rat and Azo Reduction of Salicyl-Azo-Sulphapyridine. Xenobiotica 3:4, pages 233-246.
Read now
Ralph Gingell. (1973) Substrate Non-specificity of Streptococcus faecalis Azoreductase. Xenobiotica 3:3, pages 165-169.
Read now
R. Walker & A. J. Ryan. (1971) Some Molecular Parameters Influencing Rate of Reduction of Azo Compounds by Intestinal Microflora. Xenobiotica 1:4-5, pages 483-486.
Read now
M. Mitchard. (1971) Bioreduction of Organic Nitrogen. Xenobiotica 1:4-5, pages 469-481.
Read now

Articles from other publishers (94)

Ananya Dutta, Roopa Kumari, Trishna Rajbongshi, Jyotirmoy Sarma & Sanchayita Rajkhowa. 2023. Waste Management and Resource Recycling in the Developing World. Waste Management and Resource Recycling in the Developing World 437 454 .
Flávia F. Magalhães, Ana F. S. Pereira, Raquel O. Cristóvão, Rita A. M Barros, Joaquim L. Faria, Cláudia G. Silva, Mara G. Freire & Ana P.M. Tavares. (2022) Recent Developments and Challenges in the Application of Fungal Laccase for the Biodegradation of Textile Dye Pollutants. Mini-Reviews in Organic Chemistry 20.
Crossref
Sameh Samir Ali, Rania Al-Tohamy, Eleni Koutra, Michael Kornaros, Maha Khalil, Tamer Elsamahy, Mohamed El-Shetehy & Jianzhong Sun. (2021) Coupling azo dye degradation and biodiesel production by manganese-dependent peroxidase producing oleaginous yeasts isolated from wood-feeding termite gut symbionts. Biotechnology for Biofuels 14:1.
Crossref
V. Selvaraj, T. Swarna Karthika, C. Mansiya & M. Alagar. (2021) An over review on recently developed techniques, mechanisms and intermediate involved in the advanced azo dye degradation for industrial applications. Journal of Molecular Structure 1224, pages 129195.
Crossref
Rajat Pratap Singh, Pradeep Kumar Singh, Rasna Gupta & Ram Lakhan Singh. 2019. Advances in Biological Treatment of Industrial Waste Water and their Recycling for a Sustainable Future. Advances in Biological Treatment of Industrial Waste Water and their Recycling for a Sustainable Future 225 266 .
Mohammad M. Hassan & Christopher M. Carr. (2018) A critical review on recent advancements of the removal of reactive dyes from dyehouse effluent by ion-exchange adsorbents. Chemosphere 209, pages 201-219.
Crossref
Sunil Bhavsar, Pravin Dudhagara & Shantilal Tank. (2018) R software package based statistical optimization of process components to simultaneously enhance the bacterial growth, laccase production and textile dye decolorization with cytotoxicity study. PLOS ONE 13:5, pages e0195795.
Crossref
V K Pandey, N Kumar & A K Bhardwaj. (2018) Isolation and Screening of Azo Dyes Tolerant Bacteria in Semi-Scale Industrial Effluents. Journal of Chemistry, Environmental Sciences and its Applications 4:2, pages 59-61.
Crossref
Saurabh Mishra & Abhijit Maiti. (2018) The efficacy of bacterial species to decolourise reactive azo, anthroquinone and triphenylmethane dyes from wastewater: a review. Environmental Science and Pollution Research 25:9, pages 8286-8314.
Crossref
Srushti M. Tambe & Namita D. Desai. 2018. Research Advancements in Pharmaceutical, Nutritional, and Industrial Enzymology. Research Advancements in Pharmaceutical, Nutritional, and Industrial Enzymology 71 99 .
Luqman Jameel Rather, Sabiyah Akhter & Qazi Parvaiz Hassan. 2018. Sustainable Innovations in Textile Chemistry and Dyes. Sustainable Innovations in Textile Chemistry and Dyes 75 91 .
Jinchun Sun, Jinshan Jin, Richard D Beger, Carl E Cerniglia & Huizhong Chen. (2017) Evaluation of metabolism of azo dyes and their effects on Staphylococcus aureus metabolome . Journal of Industrial Microbiology and Biotechnology 44:10, pages 1471-1481.
Crossref
Yonghong Wu. 2017. Periphyton. Periphyton 367 387 .
Yan Zhang, Fan Gao, Bridgid Wanjala, Zhiyang Li, George Cernigliaro & Zhiyong Gu. (2016) High efficiency reductive degradation of a wide range of azo dyes by SiO 2 -Co core-shell nanoparticles. Applied Catalysis B: Environmental 199, pages 504-513.
Crossref
Ram Lakhan Singh, Pradeep Kumar Singh & Rajat Pratap Singh. (2015) Enzymatic decolorization and degradation of azo dyes – A review. International Biodeterioration & Biodegradation 104, pages 21-31.
Crossref
Maulin P. Shah. 2015. Microbial Degradation of Synthetic Dyes in Wastewaters. Microbial Degradation of Synthetic Dyes in Wastewaters 205 241 .
Jessica M. Morrison, Cristee M. Wright & Gilbert H. John. (2012) Identification, Isolation and characterization of a novel azoreductase from Clostridium perfringens. Anaerobe 18:2, pages 229-234.
Crossref
Nishant A. Dafale. (2011) Exploration of genetic information from dynamic microbial populations for enhancing the efficiency of azo-dye-degrading systems. Environmental Reviews 19:NA, pages 310-332.
Crossref
J. Volmajer Valh, A. Majcen Le Marechal, S. Vajnhandl, T. Jerič & E. Šimon. 2011. Treatise on Water Science. Treatise on Water Science 685 706 .
Mirela Nadler Milabuer, Yossi Kam & Abraham Rubinstein. 2010. Oral Controlled Release Formulation Design and Drug Delivery. Oral Controlled Release Formulation Design and Drug Delivery 225 243 .
Aamr Alalewi & Cuiling Jiang. (2010) Overview of Some Colour Removal Technologies in the Textile Wastewater. Overview of Some Colour Removal Technologies in the Textile Wastewater.
Rashmi Khan & Uttam Chand Banerjee. 2010. Biodegradation of Azo Dyes. Biodegradation of Azo Dyes 73 84 .
Amar A. Telke, Dayanand C. Kalyani, Vishal V. Dawkar & Sanjay P. Govindwar. (2009) Influence of organic and inorganic compounds on oxidoreductive decolorization of sulfonated azo dye C.I. Reactive Orange 16. Journal of Hazardous Materials 172:1, pages 298-309.
Crossref
A. Boonyakamol, T. Imai, P. Chairattanamanokorn, T. Higuchi & M. Sekine. (2008) Key Factors Regarding Decolorization of Synthetic Anthraquinone and Azo Dyes. Applied Biochemistry and Biotechnology 158:1, pages 180-191.
Crossref
Jianbo Guo, Kang Li, Jingliang Yang, Chun Liu, Zaixing Li, Jing Lian & Xiaolei Wang. (2009) The Electrochemical Character During the Decolorization Processes of Azo Dyes by a Halomonas sp. GYW. The Electrochemical Character During the Decolorization Processes of Azo Dyes by a Halomonas sp. GYW.
Franciscon Elisangela, Zille Andrea, Dias Guimaro Fabio, Ragagnin de Menezes Cristiano, Durrant Lucia Regina & Cavaco-Paulo Artur. (2009) Biodegradation of textile azo dyes by a facultative Staphylococcus arlettae strain VN-11 using a sequential microaerophilic/aerobic process. International Biodeterioration & Biodegradation 63:3, pages 280-288.
Crossref
Amit Bafana & Tapan Chakrabarti. (2008) Lateral gene transfer in phylogeny of azoreductase enzyme. Computational Biology and Chemistry 32:3, pages 191-197.
Crossref
S. Venkata Mohan, N. Chandrasekhara Rao & P.N. Sarma. (2007) Simulated acid azo dye (Acid black 210) wastewater treatment by periodic discontinuous batch mode operation under anoxic–aerobic–anoxic microenvironment conditions. Ecological Engineering 31:4, pages 242-250.
Crossref
Chan-Ju Wang, Christoph Hagemeier, Nawreen Rahman, Edward Lowe, Martin Noble, Michael Coughtrie, Edith Sim & Isaac Westwood. (2007) Molecular Cloning, Characterisation and Ligand-bound Structure of an Azoreductase from Pseudomonas aeruginosa. Journal of Molecular Biology 373:5, pages 1213-1228.
Crossref
André B. dos Santos, Francisco J. Cervantes & Jules B. van Lier. (2007) Review paper on current technologies for decolourisation of textile wastewaters: Perspectives for anaerobic biotechnology. Bioresource Technology 98:12, pages 2369-2385.
Crossref
André Bezerra dos Santos, Francisco Javier Cervantes & Jules Bernardus van Lier. (2007) Impacto dos mediadores redox na remoção de cor de corantes azo e antraquinônico por lodo granular anaeróbio sob condições mesofílicas e termofílicas. Engenharia Sanitaria e Ambiental 12:1, pages 102-108.
Crossref
Anjali Pandey, Poonam Singh & Leela Iyengar. (2007) Bacterial decolorization and degradation of azo dyes. International Biodeterioration & Biodegradation 59:2, pages 73-84.
Crossref
A. Kandelbauer, A. Cavaco-Paulo & G.M. Gübitz. 2007. Environmental Aspects of Textile Dyeing. Environmental Aspects of Textile Dyeing 212 231 .
Jianbo Guo, Jiti Zhou, Dong Wang, Cunping Tian, Ping Wang, M. Salah Uddin & Hui Yu. (2007) Biocalalyst effects of immobilized anthraquinone on the anaerobic reduction of azo dyes by the salt-tolerant bacteria. Water Research 41:2, pages 426-432.
Crossref
Sagarika Mohanty, Nishant Dafale & Nageswara Neti Rao. (2006) Microbial decolorization of reactive black-5 in a two-stage anaerobic–aerobic reactor using acclimatized activated textile sludge. Biodegradation 17:5, pages 403-413.
Crossref
Claudia Guerrero-Barajas & Jim A. Field. (2005) Enhancement of anaerobic carbon tetrachloride biotransformation in methanogenic sludge with redox active vitamins. Biodegradation 16:3, pages 215-228.
Crossref
Frank P. van der Zee & Santiago Villaverde. (2005) Combined anaerobic–aerobic treatment of azo dyes—A short review of bioreactor studies. Water Research 39:8, pages 1425-1440.
Crossref
Claudia Guerrero-Barajas & Jim A. Field. (2005) Riboflavin- and cobalamin-mediated biodegradation of chloroform in a methanogenic consortium. Biotechnology and Bioengineering 89:5, pages 539-550.
Crossref
D. Méndez-Paz, F. Omil & J.M. Lema. (2005) Anaerobic treatment of azo dye Acid Orange 7 under batch conditions. Enzyme and Microbial Technology 36:2-3, pages 264-272.
Crossref
Huizhong Chen, Rong-Fu Wang & Carl E Cerniglia. (2004) Molecular cloning, overexpression, purification, and characterization of an aerobic FMN-dependent azoreductase from Enterococcus faecalis. Protein Expression and Purification 34:2, pages 302-310.
Crossref
Jürgen Maier, Andreas Kandelbauer, Angelika Erlacher, Artur Cavaco-Paulo & Georg M. Gübitz. (2004) A New Alkali-Thermostable Azoreductase from Bacillus sp. Strain SF . Applied and Environmental Microbiology 70:2, pages 837-844.
Crossref
Frank P van der Zee, Iemke A.E Bisschops, Valérie G Blanchard, Renske H.M Bouwman, Gatze Lettinga & Jim A Field. (2003) The contribution of biotic and abiotic processes during azo dye reduction in anaerobic sludge. Water Research 37:13, pages 3098-3109.
Crossref
Dong Wang, Karel Dušek, Pavla Kopečková, Miroslava Dušková-Smrčková & Jindřich Kopeček. (2002) Novel Aromatic Azo-Containing pH-Sensitive Hydrogels:  Synthesis and Characterization. Macromolecules 35:20, pages 7791-7803.
Crossref
Silke Blümel, Hans-Joachim Knackmuss & Andreas Stolz. (2002) Molecular Cloning and Characterization of the Gene Coding for the Aerobic Azoreductase from Xenophilus azovorans KF46F . Applied and Environmental Microbiology 68:8, pages 3948-3955.
Crossref
D.T. Sponza & M. Işik. (2002) Decolorization and azo dye degradation by anaerobic/aerobic sequential process. Enzyme and Microbial Technology 31:1-2, pages 102-110.
Crossref
E.S. Yoo. (2002) Kinetics of chemical decolorization of the azo dye C.I. Reactive Orange 96 by sulfide. Chemosphere 47:9, pages 925-931.
Crossref
Frank P. van der Zee, Renske H. M. Bouwman, David P. B. T. B. Strik, Gatze Lettinga & Jim A. Field. (2001) Application of redox mediators to accelerate the transformation of reactive azo dyes in anaerobic bioreactors. Biotechnology and Bioengineering 75:6, pages 691-701.
Crossref
E. S. YooJ. LibraL. Adrian. (2001) Mechanism of Decolorization of Azo Dyes in Anaerobic Mixed Culture. Journal of Environmental Engineering 127:9, pages 844-849.
Crossref
Frank P. van der Zee, Gatze Lettinga & Jim A. Field. (2001) Azo dye decolourisation by anaerobic granular sludge. Chemosphere 44:5, pages 1169-1176.
Crossref
Jason J. Plumb, Joanne Bell & David C. Stuckey. (2001) Microbial Populations Associated with Treatment of an Industrial Dye Effluent in an Anaerobic Baffled Reactor. Applied and Environmental Microbiology 67:7, pages 3226-3235.
Crossref
David Moir, Sheila Masson & Ih Chu. (2009) Structure–activity relationship study on the bioreduction of AZO dyes by Clostridium paraputrificum . Environmental Toxicology and Chemistry 20:3, pages 479-484.
Crossref
S Sumathi & B.S Manju. (2000) Uptake of reactive textile dyes by Aspergillus foetidus. Enzyme and Microbial Technology 27:6, pages 347-355.
Crossref
Nobuki Hayase, Kazuko Kouno & Kazutoshi Ushio. (2000) Isolation and characterization of Aeromonas sp. B-5 capable of decolorizing various dyes. Journal of Bioscience and Bioengineering 90:5, pages 570-573.
Crossref
N Tan. (1999) Reduction of the azo dye Mordant Orange 1 by methanogenic granular sludge exposed to oxygen. Bioresource Technology 67:1, pages 35-42.
Crossref
N. C. G. Tan, J. L. Opsteeg, G. Lettinga & J. A. Field. 1999. Novel Approaches for Bioremediation of Organic Pollution. Novel Approaches for Bioremediation of Organic Pollution 83 93 .
R Semdé, D Pierre, G Geuskens, M Devleeschouwer & A.J Moës. (1998) Study of some important factors involved in azo derivative reduction by Clostridium perfringens. International Journal of Pharmaceutics 161:1, pages 45-54.
Crossref
J.L Bragger, A.W Lloyd, S.H Soozandehfar, S.F Bloomfield, C Marriott & G.P Martin. (1997) Investigations into the azo reducing activity of a common colonic microorganism. International Journal of Pharmaceutics 157:1, pages 61-71.
Crossref
M Kudlich, A Keck, J Klein & A Stolz. (1997) Localization of the Enzyme System Involved in Anaerobic Reduction of Azo Dyes by Sphingomonas sp. Strain BN6 and Effect of Artificial Redox Mediators on the Rate of Azo Dye Reduction. Applied and Environmental Microbiology 63:9, pages 3691-3694.
Crossref
Elías Razo-Flores, Brian Donlon, Gatze Lettinga & Jim A. Field. (1997) Biotransformation and biodegradation of N -substituted aromatics in methanogenic granular sludge . FEMS Microbiology Reviews 20:3-4, pages 525-538.
Crossref
P.K. Wong & P.Y. Yuen. (1996) Decolorization and biodegradation of methyl red by Klebsiella pneumoniae RS-13. Water Research 30:7, pages 1736-1744.
Crossref
Hamidreza Ghandehari, Pavla Kopečková, Ping‐Yang Yeh & Jindřich Kopeček. (2003) Biodegradable and pH sensitive hydrogels: synthesis by a polymer‐polymer reaction. Macromolecular Chemistry and Physics 197:3, pages 965-980.
Crossref
H. S. Freeman, D. Hinks & J. Esancy. 1996. Physico-Chemical Principles of Color Chemistry. Physico-Chemical Principles of Color Chemistry 254 292 .
C. Samyn, W. Kalala, G. Van den Mooter & R. Kinget. (1995) Synthesis and in vitro biodegradation of poly(ether-ester) azo polymers designed for colon targeting. International Journal of Pharmaceutics 121:2, pages 211-216.
Crossref
J.S. Knapp & P.S. Newby. (1995) The microbiological decolorization of an industrial effluent containing a diazo-linked chromophore. Water Research 29:7, pages 1807-1809.
Crossref
Ping‐Yang Yeh, Pavla Kopečkova & Jindřich Kopeček. (2003) Degradability of hydrogels containing azoaromatic crosslinks. Macromolecular Chemistry and Physics 196:7, pages 2183-2202.
Crossref
F RafiiC E Cerniglia. (1995) Reduction of azo dyes and nitroaromatic compounds by bacterial enzymes from the human intestinal tract.. Environmental Health Perspectives 103:suppl 5, pages 17-19.
Crossref
E A SweeneyJ K ChipmanS J Forsythe. (1994) Evidence for direct-acting oxidative genotoxicity by reduction products of azo dyes.. Environmental Health Perspectives 102:suppl 6, pages 119-122.
Crossref
King‐Thom Chung & S. Edward StevensJr.Jr.. (2009) Degradation azo dyes by environmental microorganisms and helminths. Environmental Toxicology and Chemistry 12:11, pages 2121-2132.
Crossref
F RafiiC E Cerniglia. (1993) Comparison of the azoreductase and nitroreductase from Clostridium perfringens. Applied and Environmental Microbiology 59:6, pages 1731-1734.
Crossref
W HaugA SchmidtB NörtemannD C HempelA StolzH J Knackmuss. (1991) Mineralization of the sulfonated azo dye Mordant Yellow 3 by a 6-aminonaphthalene-2-sulfonate-degrading bacterial consortium. Applied and Environmental Microbiology 57:11, pages 3144-3149.
Crossref
F RafiiW FranklinC E Cerniglia. (1990) Azoreductase activity of anaerobic bacteria isolated from human intestinal microflora. Applied and Environmental Microbiology 56:7, pages 2146-2151.
Crossref
Chizuko Yatome, Toshihiko Ogawa, Toshihiko Ogawa & Hideki Hayashi. (1989) Reduction of 2-Carboxy-4′-dimethylaminoazobenzene by Bacillus Diaphorase . Bulletin of the Chemical Society of Japan 62:4, pages 1123-1126.
Crossref
Chizuko Yatome, Toshihiko Ogawa, Kiyoharu Itoh, Akihisa Sugiyama & Eiichi Idaka. (2008) Degradation of azo dyes by cell‐free extract from Aeromonas hydrophila var. 24B . Journal of the Society of Dyers and Colourists 103:11, pages 395-398.
Crossref
Anthony K. Mallett, Laurence J. King & Ronald Walker. (1985) Solubilisation, purification and reconstitution of hepatic microsomal azoreductase activity. Biochemical Pharmacology 34:3, pages 337-342.
Crossref
D. Kelly & J. M. Parry. 1985. Comparative Genetic Toxicology. Comparative Genetic Toxicology 211 220 .
Dorothy M. Maron & Bruce N. Ames. 1984. Handbook of Mutagenicity Test Procedures. Handbook of Mutagenicity Test Procedures 93 140 .
King-Thom Chung. (1983) The significance of azo-reduction in the mutagenesis and carcinogenesis of azo dyes. Mutation Research/Reviews in Genetic Toxicology 114:3, pages 269-281.
Crossref
Anthony K. Mallett, Alan Wise & Ian R. Rowland. (1983) Effect of dietary cellulose on the metabolic activity of the rat caecal microflora. Archives of Toxicology 52:4, pages 311-317.
Crossref
Dorothy M. Maron & Bruce N. Ames. (1983) Revised methods for the Salmonella mutagenicity test. Mutation Research/Environmental Mutagenesis and Related Subjects 113:3-4, pages 173-215.
Crossref
Michael J. Prival & Valerie D. Mitchell. (1982) Analysis of a method for testing azo dyes for mutagenic activity in Salmonella typhimurium in the presence of flavin mononucleotide and hamster liver S9. Mutation Research/Environmental Mutagenesis and Related Subjects 97:2, pages 103-116.
Crossref
D.S. HEWICK. 1982. Metabolic Basis of Detoxication. Metabolic Basis of Detoxication 151 170 .
K. Mechsner & K. Wuhrmann. (1982) Cell permeability as a rate limiting factor in the microbial reduction of sulfonated azo dyes. European Journal of Applied Microbiology and Biotechnology 15:2, pages 123-126.
Crossref
Joseph P. Brown. (1981) Reduction of Polymeric Azo and Nitro Dyes by Intestinal Bacteria. Applied and Environmental Microbiology 41:5, pages 1283-1286.
Crossref
Erik J. Søderlund, Erik Dybing, Svein Nordenson & Egil Tjelta. (2009) The Role of Ethyl and Fluorine Substitution in the 4′‐Position for N,N‐Diethyl‐4‐aminoazobenzene Mutagenicity and Azo Reduction. Acta Pharmacologica et Toxicologica 47:3, pages 175-182.
Crossref
E.G. Esaac & F. Matsumura. (1980) Metabolism of insecticides by reductive systems. Pharmacology & Therapeutics 9:1, pages 1-26.
Crossref
J.W. Bracke & A.J. Markovetz. (1980) Transport of bacterial end products from the colon of Periplaneta americana. Journal of Insect Physiology 26:2, pages 85-89.
Crossref
K. Wuhrmann, Kl. Mechsner & Th. Kappeler. (1980) Investigation on rate ? Determining factors in the microbial reduction of azo dyes. European Journal of Applied Microbiology and Biotechnology 9:4, pages 325-338.
Crossref
Stephen J. Rinkus & Marvin S. Legator. 1980. Chemical Mutagens. Chemical Mutagens 365 473 .
Joseph P. Brown, Gerald W. Roehm & Ronald J. Brown. (1978) Mutagenicity testing of certified food colors and related azo, xanthene and triphenylmethane dyes with the Salmonella/microsome system. Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis 56:3, pages 249-271.
Crossref
Ronald P. Mason, Francis J. Peterson & Jordan L. Holtzman. (1977) The formation of an azo anion free radical metabolite during the microsomal azo reduction of sulfonazo III. Biochemical and Biophysical Research Communications 75:3, pages 532-540.
Crossref
J. Chr. Larsen, T. Meyer & R. R. Scheline. (2009) Reduction of Sulphonated Water‐soluble Azo Dyes by Caecal Microorganisms from the Rat. Acta Pharmacologica et Toxicologica 38:4, pages 353-357.
Crossref
Roger G. Young. (1975) Flavin linked azoreductases of the madagascar cockroach, Gromphadorhina portentosa. Insect Biochemistry 5:5, pages 563-569.
Crossref
R. J. Allan & J. J. Roxon. (1974) Metabolism by Intestinal Bacteria: The Effect of Bile Salts on Tartrazine Azo Reduction. Xenobiotica 4:1, pages 637-643.
Crossref
H.A. Rose & R.G. Young. (1973) Nitroreductases in the Madagascar cockroach, Gromphadorhina portentosa. Pesticide Biochemistry and Physiology 3:3, pages 243-252.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.