Abstract
During angiosperm reproduction, one of the two synergid cells within the female gametophyte undergoes cell death prior to fertilization. The pollen tube enters the female gametophyte by growing into the synergid cell that undergoes cell death and releases its two sperm cells within the degenerating synergid cytoplasm to effect double fertilization. In Arabidopsis (Arabidopsis thaliana) and many other species, synergid cell death is dependent upon pollination. However, the mechanism by which the pollen tube causes synergid cell death is not understood. As a first step toward understanding this mechanism, we defined the temporal relationship between pollen tube arrival at the female gametophyte and synergid cell death in Arabidopsis. Using confocal laser scanning microscopy, light microscopy, transmission electron microscopy, and real-time observation of these two events in vitro, we demonstrate that synergid cell death initiates after the pollen tube arrives at the female gametophyte but before pollen tube discharge. Our results support a model in which a signaling cascade triggered by pollen tube-synergid cell contact induces synergid cell death in Arabidopsis.
Highlights
During angiosperm reproduction, one of the two synergid cells within the female gametophyte undergoes cell death prior to fertilization
As a first step toward determining the temporal relationship between pollen tube growth and synergid cell death in Arabidopsis, we established the timing of pollen tube arrival at each ovule within the pistil
Synergid Cell Death Occurs after Pollen Tube Arrival But Before Pollen Tube Discharge in Arabidopsis In Arabidopsis, synergid cell death does not occur in the absence of pollination (Christensen et al, 1997)
Summary
One of the two synergid cells within the female gametophyte undergoes cell death prior to fertilization. The pollen tube enters the female gametophyte by growing into the synergid cell that undergoes cell death and releases its two sperm cells within the degenerating synergid cytoplasm to effect double fertilization. Pollen tube penetration and/or discharge may increase the physical pressure within the synergid cell and result in rupture of this cell (van Went and Willemse, 1984; Willemse and van Went, 1984; Russell, 1992; Higashiyama, 2002). Several of these models can be distinguished by precisely defining the temporal relationships among synergid cell death, pollen tube arrival at the female gametophyte, and pollen tube discharge.
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