摘要
Dear Editor,In most flowering plants, the stigma of the flower represents the barrier that prevents any unrelated or incompatible (genetically similar) pollen from germination and fertilizing the ovule, leading to either defective or genetically unfavorable embryos. In Brassicaceae, self-incompatibility (SI) is a genetic mechanism in the stigmas that can discern compatible versus incompatible mate (pollen), in turn, rejecting self or incompatible pollen, while allowing non-self or compatible pollen to develop successfully to fertilize the ovules. Thus, stigmas have evolved complex mechanisms and specialized proteins to reject incompatible mates and to recognize and accept compatible pollen (Doucet et al., 2016). The fact that SI has been shown to exclusively operate in the stigmas temporally before and during anthesis (Kandasamy et al., 1993) indicates that multiple metabolic pathways essential for pollination exist in these stigmatic papillary cells.
Dear Editor,In most flowering plants, the stigma of the flower represents the barrier that prevents any unrelated or incompatible (genetically similar) pollen from germination and fertilizing the ovule, leading to either defective or genetically unfavorable embryos. In Brassicaceae, self-incompatibility (SI) is a genetic mechanism in the stigmas that can discern compatible versus incompatible mate (pollen), in turn, rejecting self or incompatible pollen, while allowing non-self or compatible pollen to develop successfully to fertilize the ovules. Thus, stigmas have evolved complex mechanisms and specialized proteins to reject incompatible mates and to recognize and accept compatible pollen (Doucet et al., 2016). The fact that SI has been shown to exclusively operate in the stigmas temporally before and during anthesis (Kandasamy et al., 1993) indicates that multiple metabolic pathways essential for pollination exist in these stigmatic papillary cells.