程序性细胞死亡和气孔密度调节花药对环境湿度的反应

Anna Kampova, Moritz K Nowack, Matyas Fendrych, Stanislav Vosolsobe
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引用次数: 0

摘要

花药开裂是促进开花植物从成熟花药中释放花粉的过程。尽管花药开裂对繁殖至关重要,但人们对其潜在的分子调控和环境信息的整合仍然知之甚少。通过对拟南芥花进行湿度控制处理,我们发现高湿度会阻止花药开放。较低和较高的气孔密度分别与较慢和较快的开裂动力学相关,这表明受控蒸腾作用调节了花药的开放。此外,对亚细胞标记物的分析表明,当花药张开时,特定的花药组织会经历一个空间受控的程序性细胞死亡(PCD)过程。值得注意的是,遗传抑制 PCD 网络会延迟花药开裂,而过早诱导 PCD 则会促进花药开裂。我们的数据揭示了环境湿度、受控蒸腾作用和 PCD 过程在调节模式植物拟南芥花粉及时释放中的相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Programmed cell death and stomatal density regulate anther opening in response to ambient humidity
Anther dehiscence is the process that facilitates pollen release from mature anthers in flowering plants. Despite its crucial importance to reproduction, the underlying molecular regulations and the integration of environmental information remain poorly understood. Using controlled humidity treatments of Arabidopsis thaliana flowers, we show here that high humidity prevents anthers from opening. Lower and higher stomatal densities correlate with slower and faster dehiscence dynamics, respectively, suggesting that controlled transpiration regulates anther opening. Furthermore, analyses of subcellular markers revealed that specific anther tissues undergo a spatially controlled programmed cell death (PCD) process as anthers open. Notably, genetic inhibition of PCD networks delays, whereas precocious PCD induction promotes, anther dehiscence. Our data shed new light on the interplay between ambient humidity, controlled transpiration, and PCD processes in regulating timely pollen release in the model plant Arabidopsis.
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