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COM 0882.012 2006-2008
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COM 0882.012 2006-2008
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Last modified
5/12/2008 4:37:08 AM
Creation date
5/8/2008 6:59:54 PM
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Communications
Communications - Type
COM
Communications - Council Term
2006-2008
Communication
0882
Point
012
Author
Bill Steiner
Communications - Referred To
COUNCIL
Comments
Presented: Council - 1/24/08
Document Relationships
AGE COUNCIL 2008/01/24 2006-2008
(Related)
Path:
\Council Records\Agendas\2006-2008\Council
RES 462 Draft 01 2006-2008
(Related)
Path:
\Council Records\Resolutions\2006-2008
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<br /> <br /> <br /> <br /> <br /> <br /> <br /> Do escaped transgenes persist in nature? <br /> The case of an herbicide resistance transgene in a weedy Brassica rapa <br /> population <br /> To cite this article: S. I. WARWICK, A. LEGERE, M.-J. SIMARD, T. <br /> JAMES <br /> Molecular Ecology 2007 Oct 29 2007; (advanced online pre-publication) <br /> [authors details at end] <br /> http://www.blackwell-svnergv.com/doi/abs/10.1111 /j.1365- <br /> 294X.2007.03567.x <br /> <br /> <br /> Keywords: Brassica napus, Brassica rapa, gene flow, genetically modified <br /> crops, hybridization, transgene escape <br /> <br /> Abstract <br /> <br /> The existence of transgenic hybrids resulting from transgene escape from <br /> genetically modified (GM) crops to wild or weedy relatives is well <br /> documented but the fate of the transgene over time in recipient wild <br /> species populations is still relatively unknown. This is the first report of the <br /> persistence and apparent introgression, i.e. stable incorporation of genes <br /> from one differentiated gene pool into another, of an herbicide resistance <br /> transgene from Brassica napus into the gene pool of its weedy relative, <br /> Brassica rapa, monitored under natural commercial field conditions. <br /> <br /> Hybridization between glyphosate-resistant [herbicide resistance (HR)] B. <br /> napus and B. rapa was first observed at two Qu6bec sites, Ste Agathe and <br /> St Henri, in 2001. B. rapa populations at these two locations were <br /> monitored in 2002, 2003 and 2005 for the presence of hybrids and <br /> transgene persistence. Hybrid numbers decreased over the 3-year period, <br /> from 85 out of -200 plants surveyed in 2002 to only five out of 200 plants in <br /> 2005 (St Henri site). Most hybrids had the HR trait, reduced male fertility, <br /> intermediate genome structure, and presence of both species-specific <br /> amplified fragment length polymorphism markers. Both F1 and backcross <br /> hybrid generations were detected. One introgressed individual, i.e. with the <br /> HR trait and diploid ploidy level of B. rapa, was observed in 2005. The latter <br /> had reduced pollen viability but produced -480 seeds. Forty-eight of the 50 <br /> progeny grown from this plant were diploid with high pollen viability and 22 <br /> had the transgene (1:1 segregation). These observations confirm the <br /> persistence of the HR trait over time. Persistence occurred over a 6-year <br /> <br /> period, in the absence of herbicide selection pressure (with the exception <br /> of possible exposure to glyphosate in 2002), and in spite of the fitness <br /> cost associated with hybridization. <br />
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