Jordan N D, Franklin F C, Franklin-Tong V E
Wolfson Laboratory for Plant Molecular Biology, School of Biosciences, University of Birmingham, Edgbaston, Birmingham B15 2TT, UK.
Plant J. 2000 Aug;23(4):471-9. doi: 10.1046/j.1365-313x.2000.00811.x.
Studies of the molecular and biochemical basis of self-incompatibility (SI) in Papaver rhoeas have revealed much about the signalling pathways triggered in pollen early in this response. The aim of the current investigation was to begin to study downstream events in order to elucidate some of the later cellular responses involved in the SI response and identification of the mechanisms controlling the irreversible inhibition of pollen tube growth. We have used the FragEL assay to investigate if there is any evidence for DNA fragmentation stimulated in pollen of P. rhoeas in an S-specific manner. Our data clearly demonstrate that S proteins are responsible for triggering this, specifically in incompatible, and not compatible, pollen. DNA fragmentation was first detected in incompatible pollen tubes 4 h after challenge with S proteins, and continued to increase for a further 10 h. This provides the first evidence, to our knowledge, that this phenomenon is associated with the SI response. We also demonstrate that mastoparan, which increases [Ca2+]i, also triggers DNA fragmentation in these pollen tubes, thereby implicating an involvement of Ca2+ signalling in this process. Together, our data represent a significant breakthrough in understanding of the SI response in Papaver pollen.
对虞美人自交不亲和性(SI)分子和生化基础的研究,揭示了花粉在此反应早期触发的信号通路的诸多信息。当前研究的目的是开始研究下游事件,以阐明SI反应中一些后期的细胞反应,并确定控制花粉管生长不可逆抑制的机制。我们使用FragEL检测法来研究是否有证据表明虞美人花粉中以S特异性方式刺激了DNA片段化。我们的数据清楚地表明,S蛋白负责引发这种情况,特别是在不亲和而非亲和花粉中。在用S蛋白刺激后4小时,在不亲和花粉管中首次检测到DNA片段化,并在接下来的10小时内持续增加。据我们所知,这首次证明了这种现象与SI反应相关。我们还证明,增加[Ca2+]i的mastoparan也会触发这些花粉管中的DNA片段化,从而表明Ca2+信号在此过程中起作用。总之,我们的数据代表了对虞美人花粉SI反应理解上的重大突破。
