Advanced search
Publication Cover
Microbial Ecology in Health and Disease Volume 12, 2000 - Issue 1
Journal homepage
17,781
Views
37
CrossRef citations to date
0
Altmetric
Research Article

Genetically modified plants and the 35S promoter: assessing the risks and enhancing the debate

R. Hull, S. N. Covey, P. Dale John Innes Centre, Norwich Research Park, Colney, Norwich NR4 7UH, UK
Pages 1-5 | Published online: 11 Jul 2009

References

  • Ames BN, Gold LS. Environmental pollution, pesticides, and the prevention of cancer: Misconceptions. FASEB Journal 1997; 11: 1041–52.
  • Bennetzen JL, Kellog EA. Do plants have a one-way ticket to genomic obesity? The Plant Cell 1997; 9: 1509–14.
  • Covey. SN, Lomonossoff GP, Hull R. Characterisation of cauliflower mosaic virus DNA sequences which encode major polyadenylated transcripts. Nucl Acids Res 1981; 9: 6735–47.
  • De Groot MJ, Offringa R, Groet J, Does MJ, van Hooykaas PJ, dan Elzen PJ. Non-recombinant background in gene targetting: illegitimate recombination between hpt gene and defective 5' deleted nptII gene can restore kanr phenotype in tobacco. Plant Mol Biol 1994; 25: 721–33.
  • Frank A, Guilley H, Jonard G, Richards KE, Hirth L. Nucleotide sequence of cauliflower mosaic virus DNA. Cell 1980; 21: 285–94.
  • Harper G, Osuji JG, Heslop-Harrison JS, Hull R. Integration of banana streak badnavirus into the Musa genome: molecu-lar and cytological evidence. Virology 1999; 255: 207–13.
  • Hayward, MD, Bosemark, NO and Romagosa, I. (Eds) (1993). Plant breeding: Principles and Prospects. pp.550. Chapman and Hall, London
  • Ho M-W, Ryan A, Cummins J. Cauliflower mosaic virus promoter - a recipe for disaster. Microb. Ecol. Health Dis. 1999; 10: 33–59.
  • Hohn T. Caulimoviruses - molecular biology. In: Granoff A, Webster RB, eds. Encyclopedia of Virology. San Diego: Aca-demic Press, 1999: 1281–5.
  • Hull R. The current status of plant viruses as potential RNA/DNA vector systems. In: Mantel! SH, Smith H, eds. Plant Biotechnology. Society for Experimental Biology Semi-nar Series 18. Cambridge University Press, 1983: 299–312.
  • Hull R. Is cauliflower mosaic virus still a potential vector for genes into plants? Heredity 1984; 53: 573.
  • Hull R. The potential of plant viral nucleic acids in gene transfers. Swiss Biotech 1985; 3: 35.
  • Hull R. Genus Caulimovirus. In: Murphy FA, et al., eds. Virus Taxonomy, 6th report of the International Committee on Taxonomy of Viruses. Wien: Springer Verlag, 1995: 189–92.
  • Hull R. Classification of reverse transcribing elements: a discussion document. Archives of Virology 1999; 144: 209–14.
  • Hull R, Covey SN. Characterisation of cauliflower mosaic virus DNA forms isolated from infected turnip leaves. Nucleic Acids Research 1983a; 11: 1881–95.
  • Hull R, Covey SN. Does cauliflower mosaic virus replicate by reverse transcription? Trends in Biochemical Sciences 1983b; 8: 119–21.
  • Hull R, Covey SN. Replication of cauliflower mosaic virus DNA. Sci Prog Oxf 1983c; 68: 403–22.
  • Jordan IK, Matyunira LV, McDonald JF. Evidence for the horizontal transfer of long terminal repeat retrotransposon. Proceedings of the National Academy of Sciences. USA 1999; 96: 12621–5.
  • Kohli A, Griffiths S, Palacios N, Twyman RM, Vain P, Laurie DA, Christou P. Molecular characterization of trans-forming plasmid rearrangements in transgenic rice reveals a recombination hotspot in the CaMV 35S promoter and confi-rms the predominance of microhomology medaited recombi-nation. The Plant Journal 1999; 17: 591–601.
  • Kooter JM, Matzke MA, Meyer P. Listening to the silent genes: transgene silencing, gene regulation and pathogen con-trol. Trends in Plant Sciences 1999; 4: 340–7.
  • Lockhart BEL, Olszewski NE, Hull R. Genus Badnavirus. In: Murphy FA, et al., eds. Virus Taxonomy, 6th report of the International Committee on Taxonomy of Viruses. Wien: Springer Verlag, 1995: 185–8.
  • Mason WS, Taylor JM, Hull R. Retroid virus genome repli-cation. Advances in Virus Research 1987; 32: 35–95.
  • Ndowora T, Dahal G, LaFleur D, Harper G, Hull R, 01-szewski NE, Lockhart B. Evidence that badnavirus infection in Musa can originate from integrated pararetroviral se-quences. Virology 1999; 255: 214–20.
  • Odell JT, Nagy F, Chua N-H. Identification of DNA se-quences required for activity of the cauliflower mosaic virus 35S promoter. Nature 1985; 313: 810–2.
  • Pfeiffer P, Hohn T. Involvement of reverse transcription in the replication of cauliflower mosaic virus: a detailed model and test of some aspects. Cell 1983; 33: 781–9.
  • Register JC, Peterson DJ, Bell PJ, et al. Structure and func-tion of selectable and non-selectable transgenes in maize after introduction by particle bombardment. Plant Mol Biol 1994; 25: 951–61.
  • San Miguel P, Tikhonov A, Jin Y-K, Melake-Berhan A, Springer PS, Edwards KJ, Avramova Z, Bennetzen JL. Nested retrotransposons in the intergenic regions of the maize genome. Science 1996; 274: 765–8.
  • Schoelz JE, Bourque JE. Plant pararetroviruses (Caulimoviri-dae). In: Granoff A, Webster RB, eds. Encyclopedia of Virol-ogy. San Diego: Academic Press, 1999: 1275–81.
  • Schubbert R, Lettman C, Doefler W. Ingested foreign (phage M13) DNA survives transiently in the gastronomic tract and enters the bloodstream of mice. Mol. Gen. Genet 1994; 242: 495–504.
  • Seeger C. Hepadnaviruses (Hepadnaviridae): Hepatitis B viruses: Molecular biology. In: Granoff A, Webster RB, eds. Encyclopedia of Virology. San Diego: Academic Press, 1999: 645–50.
  • Tomlinson JA. Epidemiology and control of vegetable dis-eases. Ann Appl Biol 1987; 110: 661–81.

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.