Gene flow in genetically modified wheat

PLoS ONE

Volumn 6, Issue 12, 2011, Pages

  Rieben, Silvan ^a   Kalinina, Olena ^a   Schmid, Bernhard ^a   Zeller, Simon L ^a  

^a UNIVERSITY OF ZURICH   (Switzerland)

Author keywords

[No Author keywords available]

Indexed keywords

ARTICLE; CHITINASE TRANSGENE; CONTROLLED STUDY; CROSS POLLINATION; FUNGAL PLANT DISEASE; GENE FLOW; GLUCANASE TRANSGENE; HETEROZYGOSITY; HOMOZYGOSITY; INFECTION RESISTANCE; NONHUMAN; OUTCROSSING; PM3B TRANSGENE; POLYMERASE CHAIN REACTION; SELFING; SPECIES COEXISTENCE; TRANSGENE; TRANSGENIC PLANT; WHEAT; GENETICS; PLANT GENE; POLLINATION;

GENE FLOW; GENES, PLANT; PLANTS, GENETICALLY MODIFIED; POLLINATION; TRANSGENES; TRITICUM;

EID: 84455173032     PISSN: None     EISSN: 19326203     Source Type: Journal    
DOI: 10.1371/journal.pone.0029730     Document Type: Article

References (50)

1. Wolfenbarger LL, Phifer PR, (2000) The ecological risks and benefits of genetically engineered plants. Science 290: 2088-2093.
2. Cellini F, Chesson A, Colquhoun I, Constable A, Davies HV, et al. (2004) Unintended effects and their detection in genetically modified crops. Food and Chemical Toxicology 42: 1089-1125.
3. Conner AJ, Glare TR, Nap JP, (2003) The release of genetically modified crops into the environment. Part II. Overview of ecological risk assessment. Plant Journal 33: 19-46.
4. Snow AA, Andow DA, Gepts P, Hallerman EM, Power A, et al. (2005) Genetically engineered organisms and the environment: Current status and recommendations. Ecological Applications 15: 377-404.
5. Andow DA, Zwahlen C, (2006) Assessing environmental risks of transgenic plants. Ecology Letters 9: 196-214.
6. EFSA Panel on Genetically Modified Organisms (GMO) (2010) Guidance on the environmental risk assessment of genetically modified plants. EFSA Journal 8 (11): 1879 DOI 10.2903/j.efsa.2010.1879.
7. Jørgensen RB, Andersen B, (1994) Spontaneous hybridization between oilseed rape (Brassica napus) and weedy Brassica campestris (Brassicaceae)- a rise of growing genetically-modified oilseed rape. American Journal of Botany 81: 1620-1626.
8. Daniell H, (2002) Molecular strategies for gene containment in transgenic crops. Nature Biotechnology 20: 581-586.
9. Rieger MA, Lamond M, Preston C, Powles SB, Roush RT, (2002) Pollen-mediated movement of herbicide resistance between commercial canola fields. Science 296: 2386-2388.
10. Mercer KL, Wainwright JD, (2008) Gene flow from transgenic maize to landraces in Mexico: An analysis. Agriculture, Ecosystems & Environment 123: 109-115.
11. Piñeyro-Nelson A, Van Heerwaarden J, Perales HR, Serratos-Hernandez JA, Rangel A, et al. (2009) Transgenes in Mexican maize: molecular evidence and methodological considerations for GMO detection in landrace populations. Molecular Ecology 18: 750-761.
12. Schoenenberger N, Guadagnuolo R, Savova-Bianchi D, Küpfer P, Felber F, (2006) Molecular Analysis, Cytogenetics and Fertility and Introgression Lines From Transgenic Wheat to Aegilopsis cylindria Host. Genetics 174: 2061-2070.
13. Gustafson DI, Horak MJ, Rempel CB, Metz SG, Gigax DR, et al. (2005) An empirical model for pollen-mediated gene flow in wheat. Crop Science 45: 1286-1294.
14. Levin D, Kerster H, (1974) Gene flow in seed plants. Evolutionary Biology 7: 139-220.
15. Hedrick PW, (2004) Genetics of populations. Sudbury, USA Jones and Bartlett Learning.
16. Weber WE, Bringezu T, Broer I, Eder J, Holz F, (2007) Coexistence between gm and non-gm maize crops - tested in 2004 at the field scale level (Erprobungsanbau 2004). Journal of Agronomy and Crop Science 193: 79-92.
17. Pla M, Paz J-L, Peñas G, García N, Palaudelmàs M, et al. (2006) Assessment of real-time PCR based methods for quantification of pollen-mediated gene flow from gm to conventional maize in a field study. Transgenic Research 15: 219-228.
18. Waines JG, Hegde SG, (2003) Intraspecific gene flow in bread wheat as affected by reproductive biology and pollination ecology of wheat flowers. Crop Science 43: 451-463.
19. Beckie HJ, Hall LM, (2008) Simple to complex: modelling crop pollen-mediated gene flow. Plant Science 175: 615-628.
20. De Vries AP, (1971) Flowering biology of wheat, particularly in view of hybrid seed production- review. Euphytica 20: 152-170.
21. De Vries AP, (1974) Some aspects of cross-pollination in wheat (Triticum aestivum L.). 4. Seed set on male sterile plants as influenced by distance from the pollen source, pollinator: Male sterile ratio and width of the male sterile strip. Euphytica 23: 601-622.
22. Griffin WB, (1987) Outcrossing in New Zealand wheats measured by occurrence of purple grain. New Zealand Journal of Agricultural Research 30: 287-290.
23. Martin TJ, (1990) Outcrossing in twelve hard red winter wheat cultivars. Crop Science 30: 59-62.
24. Gatford K, Basri Z, Edlington J, Lloyd J, Qureshi J, et al. (2006) Gene flow from transgenic wheat and barley under field conditions. Euphytica 151: 383-391.
25. Lawrie RG, Matus-Cadiz MA, Hucl P, (2006) Estimating out-crossing rates in spring wheat using the contact method. Crop Science 46: 247-249.
26. Eastham K, Sweet J, (2002) Genetically modified organisms (GMOs): The significance of gene flow through pollen transfer; D. G, editor. Copenhagen, Denmark European Environment Agency.
27. Matus-Cádiz MA, Hucl P, Dupuis B, (2007) Pollen-mediated gene flow in wheat at the commercial scale. Crop Science 47: 573-579.
28. Graziano CM, Bartlett M, Perrings C, (2007) Landscape gene flow, coexistence and threshold effect: The case of genetically modified herbicide tolerant oilseed rape (Brassica napus). Ecological Modelling 205: 169-180.
29. Clements FE, Goldsmith GW, (1924) The phytometer method in ecology: the plant and community as instruments. Washington Carnegie Institution of Washington.
30. Zeller SL, Kalinina O, Brunner S, Keller B, Schmid B, (2010) Transgene × environment interactions in genetically modified wheat. PloS ONE 5: e11405.
31. Yahiaoui N, Srichumpa P, Dudler R, Keller B, (2004) Genome analysis at different ploidy levels allows cloning of the powdery mildew resistance gene Pm3b from hexaploid wheat. Plant Journal 37: 528-538.
32. Christensen AH, Quail PH, (1996) Ubiquitin promoter-based vectors for high-level expression of selectable and/or screenable marker genes in monocotyledonous plants. Transgenic Research 5: 213-218.
33. Reed J, Privalle L, Powell ML, Meghji M, Dawson J, et al. (2001) Phosphomannose isomerase: An efficient selectable marker for plant transformation. In Vitro Cellular & Developmental Biology-Plant 37: 127-132.
34. Bliffeld M, Mundy J, Potrykus I, Futterer J, (1999) Genetic engineering of wheat for increased resistance to powdery mildew disease. Theoretical and Applied Genetics 98: 1079-1086.
35. Bieri S, Potrykus I, Futterer J, (2003) Effects of combined expression of antifungal barley seed proteins in transgenic wheat on powdery mildew infection. Molecular Breeding 11: 37-48.
36. Leah R, Tommerup H, Svendsen I, Mundy J, (1991) Biochemical and molecular characterization of three barley seed proteins with antifungal properties. Journal of Biological Chemistry 266: 1564-1573.
37. Zhu Q, Maher EA, Masoud S, Dixon RA, Lamb CJ, (1994) Enhanced protection against fungal attack by constitutive coexpression of chitinase and glucanase genes in transgenic tobacco. Nature Biotechnology 12: 807-812.
38. Kalinina O, Zeller SL, Schmid B, (2011) Competitive performance of transgenic wheat resistant to powdery mildew. PLoS ONE 6: e28091.
39. Hermsen JGT, (1963) Hybrid necrosis as a problem for wheat breeder. Euphytica 12: 1-16.
40. Stein N, Herren G, Keller B, (2001) A new DNA extraction method for high-throughput marker analysis in a large-genome species such as Triticum aestivum. Plant Breeding 120: 354-356.
41. Esser K, Marx WH H, Lisowsky T, (2006) DNA decontamination: novel DNA-ExitusPlus™ in comparison with conventional reagents. BioTechniques 40: 238-239.
42. Kang HW, Cho YG, Yoon UH, Eun MY, (1998) A rapid DNA extraction method for RFLP and PCR analysis from a single dry seed. Plant Molecular Biology Reporter 16: 1-9.
43. McCullagh P, Nelder JA, (1989) Generalized linear models (CRC Monographs on Statistics & Applied Probability). London Chapman and Hall.
44. Crawley MJ, (2007) The R book. Chichester, UK John Wiley & Sons.
45. Albrecht M, Duelli P, Obrist MK, Kleijn D, Schmid B, (2009) Effective long-distance pollen dispersal in Centaurea jacea. PloS ONE 4: e6751.
46. Fisher RA, (1922) On the mathematical foundations of theoretical statistics. Philosophical Transactions of the Royal Society of London 222: 309-368.
47. R Development Core Team (2010) R: A language and environment for statistical computing. Vienna, Austria R Foundation for Statistical Computing.
48. Brunner S, Hurni S, Herren G, Kalinina O, von Burg S, et al. (2011) Transgenic Pm3b wheat lines show resistance to powdery mildew in the field. Plant Biotechnology Journal: Plant Biotechnology Journal 9: 897-910.
49. Schmid B, Dolt C, (1994) Effects of maternal and paternal environment and genotype on offspring phenotype in Solidago altissima L. Evolution 48: 1525-1549.
50. Dietiker D, Oehen B, Ochsenbein C, Westgate ME, Stamp P, (2011) Field simulation of transgenic seed admixture dispersion in maize with a blue kernel color marker. Crop Science 51: 829-837.