Current PCR Methods for the Detection, Identification and Quantification of Genetically Modified Organisms(GMOs): a Brief Review

1. Anklam, E. (1999) The validation of methods based on polymerase chain reaction for the detection of genetically modified organisms in food; Anal. Chim. Acta 393 (1999) 177-179.Search in Google Scholar

2. Anonymous: Schweizerisches Lebensmittelbuch (Swiss Food Manuał); in: Molekularbiologische Me-thoden, edited by Bundesamt fur Gesundheit, Chapt. 52B, Eidgenóssische Drucksachen und Mate-rialzentrale, Bern, Switzerland, 1998.Search in Google Scholar

3. Anonymous: Lebensmittelverordnung (LM V, Swiss Food Ordinance) sur les denrćes alimentaires (ODAI) - Modification du 14 juin 1999; Eidgenóssische Drucksachen und Materialzentrale, Bern, Switzerland, 1999.Search in Google Scholar

4. Anonymous: Lebensmitteh/erordnung (LMV, Swiss Food Ordinance), Vol. SR 817.02, Art. 15, 22, 23, and Lebensmittelgesetz Art. 9; Eidgenóssische Drucksachen und Materialzentrale, Bern, Switzerland, 1995.Search in Google Scholar

5. Brandle, J.D, D. Bai: Biotechnology: uses and applications in tobacco improvement; itr. Tobacco: production, chemistry and technology, edited by D.L. Davis and M.T. Nielsen, Blackwell Science Ltd., Oxford, UK, 1999, pp. 49-65.Search in Google Scholar

6. Borson, N.D, M.A. Strausbauch, P.J. Wettstein, R.P. Oda, S.L. Johnston and J.P. Landers: Direct quantitation of RNA transcripts by competitive single tubę RT-PCR and capillary electrophoresis; Biotechniques 25 (1998) 130-137.Search in Google Scholar

7. Cheng, F.S., S.K. Brown, N.F. Weeden: A DNA extraction protocol from various tissues in woody species; Hortscience 32 (1997) 921-922.Search in Google Scholar

8. Csaikl, U.M., H. Bastian, R. Brettschneider, S. Gauch, A. Meir, M. Schauerte, F. Scholz, C. Speri-sen, B. Vornam, B. Ziegenhagen: Comparative analysis of different DNA extraction protocols: a fast, universal maxi-preparation of high quality plant DNA for genetic evaluation and phylogenetic studies; Plant Mol. Biol. Reptr. 16 (1998) 69-86.Search in Google Scholar

9. Gachet, E, G.G. Martin, F. Vigneau, G. Meyer: Detection of genetically modified organisms (GMOs) by PCR: a brief review of methodologies available; Trends Food Sci. Technol. 9 (1999) 380-388.Search in Google Scholar

10. Gadani, F, D. Ayers, W. Hempfling: Tobacco: a tool for plant genetic engineering research and molecular farming, Part I; Agro Food Ind. Hi-Tech 6 (1995) 19-24.Search in Google Scholar

11. Gadani, F, G. Bindler, H. Pijnenburg, L. Rossi, and J. Zuber: The application of polymerase chain reaction (PCR) technology to the detection, identifi-cation and quantification of genetically modified organisms (GMOs): current approaches; Joint Meeting of the Agronomy and Phytopathology Study Groups, Suzhou, China, 10-14 October 1999, Cooperation Centrę for Scientific Research Relative to Tobacco (CORESTA), Conference Proceedings, Abstract no. AP44, p. 56.Search in Google Scholar

lla. Gadani, F, M. Maunders, M. Ward (eds.): Report of the CORESTA Task Force Genetically Modified Tobacco: Detection Methods; CORESTA Buli. 4: Cooperation Centrę for Scientific Research Relative to Tobacco (CORESTA), Paris, France, 1999, 77-148.Search in Google Scholar

12. Gaskell, G., W.M. Bauer, J. Durant, N.C. Allum: Worlds apart? The reception of genetically modified foods in Europę and the U.S.; Science 285 (1999) 384-387.Search in Google Scholar

13. Gilliland, G., S. Perrin, K. Blanchard, and H.F. Bunn: Analysis of cytokine mRNA and DNA: Detection and quantitation by competitive DNA polymerase chain reaction; Proc. Natl. Acad. Sci. USA. 87 (1990) 2725-2729.Search in Google Scholar

14. Hardegger, M., P. Brodmann, A. Hermann: Quanti-tative detection of the 35S promoter and the NOS terminator using quantitative competitive PCR; Eur. Food Res. Technol. 20 (1999) 83-87.Search in Google Scholar

15. Harri, A. and S. Kocher:TaqMan® real-time quan-titative PCR: a new method to quantify genetically modified organisms (GMOs) and pathogens; Poster 02, Infotag PMolekulare Analytik von Lebens-mittelnQ, 11 November 1998, DECHEMA-Haus, Frankfurt am Main, 1998.Search in Google Scholar

16. Hayward-Lester, A, P.J. Oefner and P.A. Doris: Rapid quantification of gene expression by competitive RT-PCR and ion-pair reversed-phase HPLC; Biotechniques 20 (1996) 250-257.Search in Google Scholar

17. Hee Wan Kang, Y., U.H.Y. Gu Cho, E. Moo Young: A rapid DNA extraction method for RFLP and PCR analysis from a single dry seed; Plant Mol. Biol. Reptr. 16 (1998) 1-9.Search in Google Scholar

18. Heid, CA, J. Stevens, K.J. Livak and P.M. Williams: Real-time quantitative PCR; Genome Res. 6 (1996) 986-994.Search in Google Scholar

19. Hemmer, W.: Foods derived from genetically modified organisms and detection methods; Report 2-97 of the Biosafety Research and Assessment of Technology Impacts of the Swiss Priority Program Biotechnology of the Swiss National Science Foundation (BATS), Basel, Switzerland, 1997.Search in Google Scholar

20. Higuchi, R, G. Dollinger, P. Sean Walsh, and R. Griffith: Simultaneous amplification and detection of specific DNA sequences; Bio/Technology 10 (1992) 413-417.Search in Google Scholar

21. Hubner, P, E. Studer, D. Hafliger, M. Stadler, C. Wolf, and C. Looser: Detection of genetically modified organisms in food: critical points for quality assurance; Accred. Oual. Assur. 4 (1999) 292-298.Search in Google Scholar

22. Hubner, P, E. Studer, and J. Liithy: Ouantitation of genetically modified organisms in food; Naturę Biotechnol. 17 (1999) 1137-1138.Search in Google Scholar

23. James, C: Global review of commercialized trans-genic crops: 1999; ISAAA Brief No. 12, The International Service for the Acquisition of Agri-biotech Applications, Ithaca, NY, 1999.Search in Google Scholar

24. Jankiewicz, A, H. Broll, J. Zagon: The official method for the detection of genetically modified soybeans (German Food Act LMBG & Sect. 35): a semi-quantitative study of sensitivity limits with glyphosate-tolerant soybeans (RoundupReady®) and insect-resistant Bt maize (Maximizer); Eur. Food Res. Technol. 209 (1999) 77-82.Search in Google Scholar

25 Joint Research Center of the European Commission, Environmental Institute, Consumer Protection and Food Unit: Screening method for the identification of genetically modified organisms (GMO) in food. Detection of the CaMV 35S promoter and NOS terminator by means of polymerase chain reaction (PCR); JRC, Ispra, Italy, 1998.Search in Google Scholar

26. Kohler, T.: General aspects and chances of nucleic acid quantitation by PCR; itr. Ouantitation of mRNA by DNA polymerase chain reaction, nonradioactive PCR methods, edited by T. Kohler, D. Labner, A.K. Rost, B. Thamm, B. Pustowoit, and H. Remke, Springer-Verlag, Heidelberg, 1996, p.166.Search in Google Scholar

27. Koller, D.: Genetics and the futurę of tobacco: issues and research opportunities; in: Recent Advances in Tobacco Science, Proceedings of the 53^rd Tobacco Science Research Conference (TSRC), 12-15 Sep-tember 1999, Montreal, Canada., 1999, pp. 37-60.Search in Google Scholar

28. Lipp, M., P. Brodmann, K. Pietsch, J. Pauwels, and E. Anklam: IUPAC collaborative trial study of a method to detect genetically modified soy beans and maize in dried powder; J. AOAC Int. 82 (1999) 923-928.Search in Google Scholar

29. LMBG Lebensmittel- und Bedarfsgegenstandegesetz: Detection of genetically engineered soy beans by amplification of the altered DNA sequence using the PCR (polymerase chain reaction) and hybridization of the PCR product with a DNA probe; LMBG 23.01.22, Beuth Verlag GmbH, Berlin, Koln, March 1998.Search in Google Scholar

30. LMBG Lebensmittel- und Bedarfsgegenstandegesetz: Detection of genetically engineered potato by amplification of the altered DNA sequence using the PCR (polymerase chain reaction) and hybridization of the PCR product with a DNA probe; LMBG 24.01, Beuth Verlag GmbH, Berlin, Koln, 1996 and January 1997.Search in Google Scholar

31. McCormick, CA, H.G. Griffin, H.M Underwood and M.J. Gasson: Common DNA sequences with potential for detection of genetically manipulated organisms in food; J. Appl. Microbiol. 84 (1998) 969-980.Search in Google Scholar

32. Pietsch, K, H.U. Waiblinger, P. Brodmann, and A. Wurz: Screeningverfahren zur Identifizierung “gentechnisch veranderter” pflanzlicher Lebensmittel; Dtsch. Lebensmitt. Rundsch. 93 (1997) 35-38.Search in Google Scholar

33. Pijnenburg, H.: Relative quantification calculation methods; First Swiss Sequence Detection Systems User Meeting, December 3-4, Wengen, 1998, Proceedings, p. 12.Search in Google Scholar

34. Pijnenburg, H, G. Bindler, S. Kocher, A. Harri, L. Rossi, F. Gadani, and J. Zuber: Personal communi-cation.Search in Google Scholar

35. Raeymaekers, L.: Quantitative PCR: theoretical considerations with practical implications; Analyt. Biochem. 214 (1993) 582-585.Search in Google Scholar

36. Rossi, L, B. Hohn, B. Tinland: Integration of complete transferred DNA units is dependent on the activity of virulence E2 protein of Agrobacterium tumefaciens; Proc. Natl. Acad. Sci. USA 93 (1996) 126-130.Search in Google Scholar

38. Rossi, L, B. Tinland, B. Hohn: Role of virulence proteins of Agrobactenum in the plant; itr. The rhizobiaceae: molecular biology of model plant associated bacteria, edited by H.P. Spaink, A. Kon-dorosi, and P.J.J. Hooykaas, Kluwer Academic Publishers, Dordrecht, Netherlands, 1998, pp. 303-320.Search in Google Scholar

39. Rossi, L, G. Bindler, H. Pijnenburg, and F. Gadani: Potential of molecular marker analysis for assess-ment of genetic diversity in tobacco varieties; Joint Meeting of the Agronomy and Phytopathology Study Groups, Suzhou, China, 10-14 October 1999, Cooperation Centrę for Scientific Research Relative to Tobacco (CORESTA), Conference Proceedings, Abstract no. AP45, p. 57.Search in Google Scholar

40. Rossi, L, G. Bindler, H. Pijnenburg, F. Gadani: Evaluation of molecular marker technologies for tobacco variety identification; Plant & Animal Genome VIII Conference, San Diego, CA, January 9-12, 2000, Conference Proceedings, Scherago International, Inc., New York, USA, Abstract no. P473, p. 169.Search in Google Scholar

41. Saiki, R.K, S. Scharf, F. Faloona, K.B. Mullis, G.T. Horn, H.A. Erlich, and M. Arnheim: Enzymatic amplification of y-globin genomie sequences and restriction site analysis for diagnosis of sickle celi anemia; Science 230 (1985) 1350-1354.Search in Google Scholar

42. Sanger, F, S. Nicklen, and A.R. Coulson: DNA sequencing with chain-terminating inhibitors; Proc. Natl. Acad. Sci. (USA) 74 (1977) 5463-5467.10.1073/pnas.74.12.5463431765271968Search in Google Scholar

43. Scott, O.R., AJ. Bendich: Extraction of DNA from plant tissues; Plant Mol. Biol. Manuał A6, 1988, pp 1-10.Search in Google Scholar

44. Siebert, P.D, and J.W. Larrick: Competitive PCR; Naturę 359 (1992) 557-558.Search in Google Scholar

45. Singh, M., Bandana and P.S. Ahuja: Isolation and amplification of genomie DNA from market sam-ples of dry tea; Plant Mol. Biol. Reptr. 17 (1999) 171-178.Search in Google Scholar

46. Spoth, B, and E. Strauss: Screening for genetically modified organisms in food using PromegaNs Wizard resin; Promega Notes Magazine 73 (1999) 23-25.Search in Google Scholar

47. Straub, J.A, C. Hertel, and W.P. Hammes: Limits of a PCR-based detection method for genetically modified soya beans in wheat bread production; Z. Lebensm. Unters. Forsch. A 208 (1999) 77-82.Search in Google Scholar

48. Studer, E, C. Rhyner, J. Liithy, and P. Hubner: Quantitative competitive PCR for the detection of genetically modified soybean and maize; Z. Lebensm. Unters. Forsch. 207 (1998) 207-213.Search in Google Scholar

49. Tyagi, S. and F.R. Kramer: Molecular beaconsL probes that fluoresce upon hybridization; Naturę Biotechnol. 14 (1996) 303-308.Search in Google Scholar

49. Tso, T.C.: Production, physiologyandbiochemistry of tobacco plant; Ideals, Inc., Beltsville, MD, 1990.Search in Google Scholar

50. Vaitiligom, M., H. Pijnenburg, F. Gendre, and P. Brignon: Quantitative detection of genetically modified organisms in food; J. Agric. Food Chem. 47(1999)5261-5266.Search in Google Scholar

51. Verhaegen, M. and T.K. Christopoulos: Ojuantitative polymerase chain reaction based on a dual-analyte chemiluminescence hybridization assay for target DNA and internal standard; Anal. Chem. 70 (1998) 4120-4125.Search in Google Scholar

52. Vroh Bi, I, L. Harvengt, A. Chandelier, G. Mergeai, and P. Du-Jardin: Improved RAPD amplification of recalcitrant plant DNA by the use of activated charcoal during DNA extraction; Plant Breeding 115 (1996) 205-206.Search in Google Scholar

53. Wang, H, M. Qi, AJ. Cutler: A simple method of preparing plant samples for PCR; Nucleic Acids Res. 21 (1993) 4153-4154.Search in Google Scholar

54. Ward, M.R.: A review of the regulations governing the production and use of genetically modified crops; in: Recent Advances in Tobacco Science, Proceedings of the 53^rd Tobacco Science Research Conference (TSRC), 12-15 September 1999, Montreal, Canada, pp. 81-91.Search in Google Scholar

55. Watson, J.D, and F.H.C. Crick: A structure for deoxyribose nucleic acid; Naturę 171 (1953) 737.Search in Google Scholar

56. Whitcombe, D, J. Theaker, S.P. Guy, T. Brown, and S. Little: Detection of PCR products using self-probing amplicons and fluorescence; Naturę Biotechnol. 17 (1999) 804-807.Search in Google Scholar

57. Zimmerman, A, W. Hemmer, M. Liniger, J. Luthy, and U. Pauli: A sensititve detection method for genetically modified MaisGard™ corn using a nested PCR-system; Lebensm.-Wiss. Technol. 31 (1998) 664-667.Search in Google Scholar

58. Zupan, J.R, and P. Zambryski: The Agrobacterium DNA transfer complex; Crit. Rev. Plant Sci. 16 (1997) 279-295.10.1080/07352689709701951Search in Google Scholar