Genetic load and transgenic mitigating genes in transgenic Brassica rapa field mustard × Brassica napus oilseed rape hybrid populationsReportar como inadecuado

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BMC Biotechnology

, 9:93

First Online: 31 October 2009Received: 11 May 2009Accepted: 31 October 2009


BackgroundOne theoretical explanation for the relatively poor performance of Brassica rapa weed × Brassica napus crop transgenic hybrids suggests that hybridization imparts a negative genetic load. Consequently, in hybrids genetic load could overshadow any benefits of fitness enhancing transgenes and become the limiting factor in transgenic hybrid persistence. Two types of genetic load were analyzed in this study: random-linkage-derived genetic load, and directly incorporated genetic load using a transgenic mitigation TM strategy. In order to measure the effects of random genetic load, hybrid productivity seed yield and biomass was correlated with crop- and weed-specific AFLP genomic markers. This portion of the study was designed to answer whether or not weed × transgenic crop hybrids possessing more crop genes were less competitive than hybrids containing fewer crop genes. The effects of directly incorporated genetic load TM were analyzed through transgene persistence data. TM strategies are proposed to decrease transgene persistence if gene flow and subsequent transgene introgression to a wild host were to occur.

ResultsIn the absence of interspecific competition, transgenic weed × crop hybrids benefited from having more crop-specific alleles. There was a positive correlation between performance and number of B. napus crop-specific AFLP markers seed yield vs. marker number r = 0.54, P = 0.0003 and vegetative dry biomass vs. marker number r = 0.44, P = 0.005. However under interspecific competition with wheat or more weed-like conditions i.e. representing a situation where hybrid plants emerge as volunteer weeds in subsequent cropping systems, there was a positive correlation between the number of B. rapa weed-specific AFLP markers and seed yield r = 0.70, P = 0.0001, although no such correlation was detected for vegetative biomass. When genetic load was directly incorporated into the hybrid genome, by inserting a fitness-mitigating dwarfing gene that that is beneficial for crops but deleterious for weeds a transgene mitigation measure, there was a dramatic decrease in the number of transgenic hybrid progeny persisting in the population.

ConclusionThe effects of genetic load of crop and in some situations, weed alleles might be beneficial under certain environmental conditions. However, when genetic load was directly incorporated into transgenic events, e.g., using a TM construct, the number of transgenic hybrids and persistence in weedy genomic backgrounds was significantly decreased.

Electronic supplementary materialThe online version of this article doi:10.1186-1472-6750-9-93 contains supplementary material, which is available to authorized users.

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Autor: Christy W Rose - Reginald J Millwood - Hong S Moon - Murali R Rao - Matthew D Halfhill - Paul L Raymer - Suzanne I W


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