TY - JOUR
T1 - FANCM Limits Meiotic Crossovers in Brassica Crops
AU - Blary, Aurélien
AU - Gonzalo, Adrián
AU - Eber, Frédérique
AU - Bérard, Aurélie
AU - Bergès, Hélène
AU - Bessoltane, Nadia
AU - Charif, Delphine
AU - Charpentier, Catherine
AU - Cromer, Laurence
AU - Fourment, Joelle
AU - Genevriez, Camille
AU - Le Paslier, Marie-Christine
AU - Lodé, Maryse
AU - Lucas, Marie-Odile
AU - Nesi, Nathalie
AU - Lloyd, Andrew
AU - Chèvre, Anne-Marie
AU - Jenczewski, Eric
PY - 2018/3/23
Y1 - 2018/3/23
N2 - Meiotic crossovers (COs) are essential for proper chromosome segregation and the reshuffling of alleles during meiosis. In WT plants, the number of COs is usually small, which limits the genetic variation that can be captured by plant breeding programs. Part of this limitation is imposed by proteins like FANCM, the inactivation of which results in a 3-fold increase in COs in Arabidopsis thaliana. Whether the same holds true in crops needed to be established. In this study, we identified EMS induced mutations in FANCM in two species of economic relevance within the genus Brassica. We showed that CO frequencies were increased in fancm mutants in both diploid and tetraploid Brassicas, Brassica rapa and Brassica napus respectively. In B. rapa, we observed a 3-fold increase in the number of COs, equal to the increase observed previously in Arabidopsis. In B. napus we observed a lesser but consistent increase (1.3-fold) in both euploid (AACC) and allohaploid (AC) plants. Complementation tests in A. thaliana suggest that the smaller increase in crossover frequency observed in B. napus reflects residual activity of the mutant C copy of FANCM. Altogether our results indicate that the anti-CO activity of FANCM is conserved across the Brassica, opening new avenues to make a wider range of genetic diversity accessible to crop improvement.
AB - Meiotic crossovers (COs) are essential for proper chromosome segregation and the reshuffling of alleles during meiosis. In WT plants, the number of COs is usually small, which limits the genetic variation that can be captured by plant breeding programs. Part of this limitation is imposed by proteins like FANCM, the inactivation of which results in a 3-fold increase in COs in Arabidopsis thaliana. Whether the same holds true in crops needed to be established. In this study, we identified EMS induced mutations in FANCM in two species of economic relevance within the genus Brassica. We showed that CO frequencies were increased in fancm mutants in both diploid and tetraploid Brassicas, Brassica rapa and Brassica napus respectively. In B. rapa, we observed a 3-fold increase in the number of COs, equal to the increase observed previously in Arabidopsis. In B. napus we observed a lesser but consistent increase (1.3-fold) in both euploid (AACC) and allohaploid (AC) plants. Complementation tests in A. thaliana suggest that the smaller increase in crossover frequency observed in B. napus reflects residual activity of the mutant C copy of FANCM. Altogether our results indicate that the anti-CO activity of FANCM is conserved across the Brassica, opening new avenues to make a wider range of genetic diversity accessible to crop improvement.
U2 - 10.3389/fpls.2018.00368
DO - 10.3389/fpls.2018.00368
M3 - Article
C2 - 29628933
SN - 1664-462X
VL - 9
SP - 368
JO - Frontiers in Plant Science
JF - Frontiers in Plant Science
ER -