Gene Introgression in Weeds Depends on Initial Gene Location in the Crop: Brassica napus - Raphanus raphanistrum Model

The effect of gene location within a crop genome on its transfer to a weed genome remains an open question for gene flow assessment. To elucidate this question, we analyzed advanced generations of intergeneric hybrids, derived from an initial pollination of known oilseed rape varieties ( , AACC, 2  ...

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Published in:Genetics (Austin) 2017-07, Vol.206 (3), p.1361-1372
Main Authors: Adamczyk-Chauvat, Katarzyna, Delaunay, Sabrina, Vannier, Anne, François, Caroline, Thomas, Gwenaëlle, Eber, Frédérique, Lodé, Maryse, Gilet, Marie, Huteau, Virginie, Morice, Jérôme, Nègre, Sylvie, Falentin, Cyril, Coriton, Olivier, Darmency, Henri, Alrustom, Bachar, Jenczewski, Eric, Rousseau-Gueutin, Mathieu, Chèvre, Anne-Marie
Format: Article
Language:English
Subjects:
Brassica
Brassica - genetics
Brassica napus
Chromosome number
Chromosomes
Crops
Fitness
Gene Flow
Genes, Plant
Genetic Fitness
Genetics
Genomes
Genomics
Heredity
Hybridization
Hybridization, Genetic
Hybrids
Investigations
Life Sciences
Low frequencies
Markers
Plant reproduction
Plant Weeds - genetics
Pollination
Progeny
Radishes
Rape plants
Rapeseed
Raphanus - genetics
Raphanus raphanistrum
Transgenes
Weeds
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Summary:The effect of gene location within a crop genome on its transfer to a weed genome remains an open question for gene flow assessment. To elucidate this question, we analyzed advanced generations of intergeneric hybrids, derived from an initial pollination of known oilseed rape varieties ( , AACC, 2  = 38) by a local population of wild radish ( , RrRr, 2  = 18). After five generations of recurrent pollination, 307 G5 plants with a chromosome number similar to wild radish were genotyped using 105 specific markers well distributed along the chromosomes. They revealed that 49.8% of G5 plants carried at least one genomic region. According to the frequency of markers (0-28%), four classes were defined: Class 1 (near zero frequency), with 75 markers covering ∼70% of oilseed rape genome; Class 2 (low frequency), with 20 markers located on 11 genomic regions; Class 3 (high frequency), with eight markers on three genomic regions; and Class 4 (higher frequency), with two adjacent markers detected on A10. Therefore, some regions of the oilseed rape genome are more prone than others to be introgressed into wild radish. Inheritance and growth of plant progeny revealed that genomic regions of oilseed rape could be stably introduced into wild radish and variably impact the plant fitness (plant height and seed number). Our results pinpoint that novel technologies enabling the targeted insertion of transgenes should select genomic regions that are less likely to be introgressed into the weed genome, thereby reducing gene flow.
ISSN:1943-2631
0016-6731
1943-2631
DOI:10.1534/genetics.117.201715