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Established technologies and new approaches in applying luminous bacteria for analytical purposes

1997; Wiley; Volume: 12; Issue: 4 Linguagem: Inglês

10.1002/(sici)1099-1271(199707/08)12

1099-1271

S. Ulitzur,

Cancer Research and Treatments

Journal of Bioluminescence and ChemiluminescenceVolume 12, Issue 4 p. 179-192 Review Paper Established technologies and new approaches in applying luminous bacteria for analytical purposes S. Ulitzur, Corresponding Author S. Ulitzur Department of Food Engineering and Biotechnology, Technion-Israel Institute of Technology, Technion City, Haifa 32000, IsraelDepartment of Food Engineering and Biotechnology, Technion-Israel Institute of Technology, Technion City, Haifa 32000, IsraelSearch for more papers by this author S. Ulitzur, Corresponding Author S. Ulitzur Department of Food Engineering and Biotechnology, Technion-Israel Institute of Technology, Technion City, Haifa 32000, IsraelDepartment of Food Engineering and Biotechnology, Technion-Israel Institute of Technology, Technion City, Haifa 32000, IsraelSearch for more papers by this author First published: 04 December 1998 https://doi.org/10.1002/(SICI)1099-1271(199707/08)12:4 3.0.CO;2-ZCitations: 8AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL References 1 Ulitzur S: The use of intact luminous bacteria for analytical purposes. In: Luminescent Assays. 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Archiv Mikrobiol 1980 129: 67– 71. 19 Ulitzur S, Hastings JW: Reversible inhibition of bacterial bioluminescence by long chain fatty acids. Curr Microbiol 1980 3: 295– 300. 20 Ulitzur S, Heller M: A sensitive bioassay for lipase, phospholipase-A2 and phospholipase-C using bacterial luminescence. Meth Enzymol 1981 72: 338– 46. 21 Ulitzur S: A fast and sensitive assay for lipase. Biochim Biophys Acta 1979 572: 211– 17. 22 Ulitzur S, Heller M: New, fast and very sensitive bioluminescence assay for phospholipase A and C. Anal Biochem 1978 91: 421– 31. 23 Cho KW: A new bioluminescent assay of cholesterol esterase using luminescent marine bacterium Vibrio harveyi mutant M-17. Misaengmul Hakhoechi 1993 31: 532– 6. 24 Ulitzur S, Yagen I, Rottem S: Determination of lipopolysaccharide by a bioluminescence technique. Env Appl Bacteriol 1979 37: 782– 894. 25 Ulitzur S, Goldberg I: A sensitive, rapid and specific bioassay for the determination of antilipogenic compounds. Anti Microbiol Chemother 1977 12: 308– 13. 26 Berkovich A, Cogan U, Ulitzur S: Determination of oil oxidation by an aldehyde-requiring mutant of luminous bacteria. J Biolumin Chemilumin 1989 3: 125– 9 27 Tenne M, Youdim MBH, Ulitzur S, Finberg JPM: Determination of aliphatic amines by monoamine oxidase A and B studied by using bioluminescence technique. J Neurochem 1985 44: 1373– 7. 28 Tenne M, Finberg JPM, Youdim MB, Ulitzur S: A new, rapid and sensitive bioluminescence assay for monoamine oxidase activity. J Neurochem 1985 44: 1378– 84. 29 Naveh A, Potasman I, Bassan H, Ulitzur S: A new, rapid and sensitive bioluminescence of protein synthesis inhibitors antibiotics. J Appl Bacteriol 1983 56: 457– 62. 30 Naveh A, Ulitzur S: Determination of misreading effect of antibiotics with the aid of luminous bacteria. J Microbiol Meth 1986 4: 241– 9. 31 Ulitzur S: Determination of antibiotic activities with the aid of luminous bacteria. Meth Enzymol 1986 133: 275– 84. 32 Ulitzur S, Weiser I: Acridine dyes and other DNA-intercalating agents induce the luminescence in luminous bacteria and their dark variants. Proc Natl Acad Sci USA 1981 78: 3338– 42. 33 Adar Y, Siman M, Ulitzur S: Formation of the LuxR protein in the Vibrio fischeri lux system is controlled by HtpR through the GroESL proteins. J Bacteriol 1992 174: 7138– 43. 34 Adar Y, Ulitzur S: GroESL proteins facilitate binding of externally added inducer by LuxR protein containing E. coli cells. J Biolumimin Chemilumin 1993 8: 261– 6. 35 Brenner A, Belkin S, Ulitzur S, Abeliovich A: Evaluation of activated carbon adsorption capacity by a toxicity bioassay. Water Sci Technol 1993 27: 1577– 83. 36 Brenner A, Belkin S, Ulitzur S, Abeliovich A: Fast assessment of toxicants adsorption on activated carbon using a luminous bacteria bioassay. Water Sci Technol 1993 27: 113– 20. 37 Belkin S, Steiber M, Tiehm A, Frimmel HA, Abeliovich A, Werner P, Ulitzur S: Toxicity and genotoxicity enhancement during polycyclic aromatic hydrocarbons biodegradation. Environ Toxicol Water Qual 1994 9: 303– 9. 38 Ben Avraham R Shomer, Belin S, Bulich A, Ulitzur S: Novel bioluminescence tests for determination of AOC and BOD in water. J Biolumin Chemilumin (in press). 39 Bar R, Ulitzur S: Bacterial toxicity of cyclodextrins: luminous Escherichia coli as a model. Appl Microbiol Biotechnol. 1994 41: 574– 7. 40 Bulich A: Mutatox: a genotoxicity assay using luminescent bacteria. Schriftenr Ver Wasser Boden Lufthyg 1992 89: 763– 70. 41 Eberz G, Rast HG, Burger K, Kreiss W, Weisemann C: Bioactivity screening by chromatography-bioluminescence coupling. Chromatographia 1996 43: 5– 9. 42 VanDyk TK, Majarian WM, Konstantinov KB, Young RM, Dhurjati PS, LaRossa RA: Rapid and sensitive pollutant detection by induction of heat shock gene-bioluminescence gene fusions. Appl Environ Microbiol 1994 60: 1414– 20. 43 Karube I, Yokoyama K: Microbial sensors and microbiosensors. NATO ASI Ser. 1993 252: 281– 7. 44 Ulitzur S, Weiser I, Yannai S: A new, sensitive, fast and simple bioluminescence assay for mutagenic compounds. Mut Res 1980 74: 113– 24. 45 Weiser I, Ulitzur S, Yannai S: DNA damaging agents and DNA synthesis inhibitors induce the luminescence in dark variants of luminous bacteria. Mut Res 1981 91: 443– 50. 46 Ulitzur S, Weiser I, Yannai S: Bioluminescence test of mutagenic agents. In: MA DeLuca, WD McElroy, editors. Bioluminescence and chemiluminescence. London: Academic Press 1981: 139– 45. Ulitzur S: Bioluminescence test for genotoxic agents. Trends Anal Chem 1981 1: 329– 33. 47 Levi BZ, Ulitzur S: Proflavin and norharman induce luciferase synthesis under anaerobiosis. Arch Microbiol 1983 13: 281– 4. 48 Ben-Itzhak J, Levi BZ, Shor R, Lanir A, Bassan HM, Ulitzur S: The formation of genotoxic metabolites of benzo[a]pyrene by the isolated perfused rat liver, as detected by the bioluminescence test. Mut Res 1985 147: 107– 12. 49 Levi BZ, Kuhn J, Ulitzur S: Determination of the activity of 16 hydrazine derivatives in the bioluminescence test for genotoxic agents. Mut Res 1986 173: 33– 237. 50 Ulitzurt S: Bioluminescence test for genotoxic agents. Meth Enzymology 1986 133: 264– 74. 51 Goutmann-Bass N, Albuquerque MB, Ulitzur S, Chartrand A, Rav-Acha C: Effect of chlorine and chlorine dioxide on the mutagenic activity of Lake Kinneret water. Env Sci Technol 1987 21: 252– 60. 52 Ulitzur S, Barak M: Detection of genotoxicity of metallic compounds by the bacterial bioluminescence test. J Biolumin Chemilumin 1988 2: 95– 9. 53 Bulich A: Mutatox: a genotoxicity assay using luminescent bacteria. Schriftenr Ver Wasser Boden Lufthyg 1992 89: 763– 70. 54 Barak M, Ulitzur S, Merzbach M: Determination of serum bactericidal activity with the aid of luminous bacteria. J Clin Microbiol 1983 18: 248– 53. 55 Barak M, Merzbach D, Ulitzur S: Opsionization increases permeability of the outer membrane of the luminous bacteria. J Appl Bacteriol 1985 59: 57– 61. 56 Barak M, Ulitzur S, Merzbach D: Phagocytosis induced mutagenesis in bacteria. Mut Res 1983 12: 7– 16. 57 Barak M, Ulitzur S, Merzbach D: The use of luminous bacteria for determination of phagocytosis. J Immunol Meth 1983 64: 353– 63. 58 Barak M, Ulitzur S, Merzbach D: Elucidation of phagocytosis mechanism with the aid of luminous bacteria. J Med Microbiol 1983 18: 65– 72. 59 Hansen PD, Bock R, Brauer F: Investigations of phagocytosis concerning the immunological defense mechanism of Mytilus edulis using a sublethal luminescent bacterial assay (Photobacterium phosphoreum). Comp Biochem Physiol 1991 100: 129– 32. 60 Ulitzur S, Kuhn J: Introduction of lux genes into bacteria, a new approach for specific determination of bacteria and their antibiotic susceptibility. In: J Scholmerich, R Andreesen, A Kapp, M Ernst, WG Woods, editors. Bioluminescence and chemiluminescence: new perspectives. Chichester: Wiley 1987: 463– 72. 61 Ulitzur S, Suissa M, Kuhn J: A new approach for the determination of bacteria and their antibiotics susceptibilities. In: A Balows, RC Tilton, A Turano, editors. Rapid mehods and automation in microbiology and immunology. Brescia: Brixia Academica Press 1989: 235– 40. 62 Ulitzur S, Kuhn J: Detection and/or identification of microorganisms in a test sample using bioluminescence or other exogenous genetically-introduced marker. Israel Patent No. 72,026, U.S. Patent No. 4,861,709. 63 Ulitzur S, Kuhn J: Determination of antibiotics with the aid of mobile genetic elements carrying various genetic systems specifying easily measurable biological functions. Patent applied for in USA and 19 other countries. U.S. Patent Application No. 07/422,215. 64 Jacobs WR, Barletta RG, Udani R, Chan J, Kalkut G, Sosne G, Kieser Y, Sarkis GJ, Hatfull GF, Bloom BR: Rapid assessment of drugs susceptibilities of Mycobacterium tuberculosis by means of luciferase reporter phages. Science 1993 260: 819– 22. 65 Vashitz O, Ulitzur S, Sheintuch M: Mass transfer, batch and continuous kinetics, in a luminous strain of Xanthomonas campestris. Chem Eng Sci 1988 43: 1883– 90. 66 Vashitz O, Sheintuch M, Ulitzur S: Mass transfer studies using cloned-luminous strains of Xanthomonas camestris. Biotechnol Bioengin 1989 34: 671– 80. 67 Vashitz O, Ulitzur S, Sheintuch M: Forced bioluminescence fluctuations: a tool for feed optimization. Appl Microbiol Biotechnol 1990 33: 154– 16. 68 Tartakovsky S, Ulitzur S, Sheintuch M: Optimal control fedbatch fermentation with autoinduction of metabolite production. Biotechnol Prog 1995 11: 80– 87. 69 Ulitzur S, Yashphe J: An adenosine 3′,5′-cyclic monophosphate requiring mutant of the luminous bacteria Beneckea harveyi. Biochim Biophys Acta 1975 404: 321– 8. 70 Miltz J, Ulitzur S: A new and fast bioluminescence method for determination of oxygen transmission through plastic films used in food packaging. Food Technology 1980 15: 389– 90. 71 Barak M, Ulitzur S: Bacterial luminescence as an early indication of marine fish spoilage. Eur J App Mikrobiol 1980 10: 155– 65. 72 Barak M, Ulitzur S: The induction of the bacterial luminescence system on solid media. Curr. Microbiol 1981 4: 597– 601. 73 Greenberg P, Hastings JW, Ulitzur S: Induction of luciferase synthesis in Beneckea harveyi by other marine bacteria. Archiv Microbiol 1979 120: 87– 91. 74 Ulitzur S, Kuhn J: The transcription of bacterial luminescence is regulated by Sigma 32. J Biolumin Chemilumin 1988 2: 81– 93. 75 Ulitzur S: The regulatory control of Vibrio fischeri lux system. Israel J Med Sci 1992 28: 918. 76 Amin-Hanjani S, Meikle A, Glover LA, Prosser JI, Killham K: Plasmid and chromosomally encoded luminescence marker systems for detection of Pseudomonas fluorescens in soil. Mol Ecol 1993 2: 47– 54. 77 Meikle A, Killham K, Prosser JI, Glover LA: Luminometric measurement of population activity of genetically modified Pseudomonas fluorescens in the soil. FEMS Microbiol Lett 1992 78: 217– 20. 78 Bolenes J, Zoutman D, Campbell J, Verstraete W, Paranchych W: The use of bioluminescence as a reporter to study the adherence of the plant growth promoting rhizopseudomonads 7NSK2 and ANP15 to canola roots. Can J Microbiol 1993 39: 329– 34. Citing Literature Volume12, Issue4July/August 1997Pages 179-192 ReferencesRelatedInformation