McClure Bruce A, Franklin-Tong Vernonica
Department of Biochemistry, 105 Christopher S. Bond Life Sciences Center, 1201 E. Rollins St., Columbia, MO, 65211-7310, USA.
Planta. 2006 Jul;224(2):233-45. doi: 10.1007/s00425-006-0284-2. Epub 2006 Jun 1.
Self-incompatibility (SI) prevents the production of "self" seed and inbreeding by providing a recognition and rejection system for "self," or genetically identical, pollen. Studies of gametophytic SI (GSI) species at a molecular level have identified two completely different S-genes and SI mechanisms. One GSI mechanism, which is found in the Solanaceae, Rosaceae and Scrophulariaceae, has S-RNase as the pistil S-component and an F-box protein as the pollen S-component. However, non-S-locus factors are also required. In an incompatible situation, the S-RNases degrade pollen RNA, thereby preventing pollen tube growth. Here, in the light of recent evidence, we examine alternative models for how compatible pollen escapes this cytotoxic activity. The other GSI mechanism, so far found only in the Papaveraceae, has a small secreted peptide, the S-protein, as its pistil S-component. The pollen S-component remains elusive, but it is thought to be a transmembrane receptor, as interaction of the S-protein with incompatible pollen triggers a signaling network, resulting in rapid actin depolymerization and pollen tube inhibition and programmed cell death (PCD). Here, we present an overview of what is currently known about the mechanisms involved in regulating pollen tube inhibition in these two GSI systems.
自交不亲和性(SI)通过为“自身”花粉或基因相同的花粉提供识别和排斥系统,阻止了“自身”种子的产生和近亲繁殖。在分子水平上对配子体自交不亲和性(GSI)物种的研究已经确定了两种完全不同的S基因和自交不亲和机制。一种GSI机制存在于茄科、蔷薇科和玄参科中,以S-RNase作为雌蕊S成分,以F-box蛋白作为花粉S成分。然而,还需要非S位点因子。在不亲和的情况下,S-RNases会降解花粉RNA,从而阻止花粉管生长。在此,根据最近的证据,我们研究了相容花粉如何逃避这种细胞毒性活性的替代模型。另一种GSI机制,目前仅在罂粟科中发现,以一种小的分泌肽S蛋白作为其雌蕊S成分。花粉S成分仍然难以捉摸,但据认为它是一种跨膜受体,因为S蛋白与不相容花粉的相互作用会触发一个信号网络,导致肌动蛋白迅速解聚、花粉管抑制和程序性细胞死亡(PCD)。在此,我们概述了目前已知的这两种GSI系统中调节花粉管抑制的机制。
