Section of Plant Biology, School of Integrative Plant Science, Cornell University, Ithaca, NY 14850, United States of America.
Curr Opin Genet Dev. 2017 Dec;47:54-60. doi: 10.1016/j.gde.2017.08.005. Epub 2017 Sep 13.
Flowering plants have evolved diverse mechanisms that promote outcrossing. The most widespread of these outbreeding devices are self-incompatibility systems, the highly selective prefertilization mating barriers that prevent self-fertilization by disrupting pollen-pistil interactions. Despite the advantages of outcrossing, loss of self-incompatibility has occurred repeatedly in many plant families. In the mustard family, the highly polymorphic receptors and ligands that mediate the recognition and inhibition of self-pollen in self-incompatibility have been characterized and the 3D structure of the receptor-ligand complex has been solved. Sequence analyses and empirical studies in self-incompatible and self-compatible species are elucidating the genetic basis of switches from the outcrossing to selfing modes of mating and beginning to provide clues to the diversification of the self recognition repertoire.
开花植物进化出了多种促进异交的机制。其中最广泛的异交装置是自交不亲和系统,这是一种高度选择性的受精前交配障碍,通过破坏花粉-柱头相互作用来阻止自花授粉。尽管异交有优势,但在许多植物科中,自交不亲和性的丧失已经反复发生。在芥菜科中,介导自交不亲和中识别和抑制自花粉的高度多态性受体和配体已经被表征,并且受体-配体复合物的 3D 结构已经被解决。自交不亲和和自交亲和物种的序列分析和实证研究阐明了从异交到自交交配模式转变的遗传基础,并开始为自我识别库的多样化提供线索。
