Synergid cell calcium oscillations refine understanding of FERONIA/LORELEI signaling during interspecific hybridization.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-03-01 Epub Date: 2023-11-07 DOI:10.1007/s00497-023-00483-6
Nathaniel Ponvert, Mark A Johnson
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引用次数: 0

Abstract

Key message: Pollen tubes from closely related species and mutants lacking pollen tube MYB transcription factors are able to initiate FER/LRE-dependent synergid cell calcium oscillations. Reproductive isolation leads to the evolution of new species; however, the molecular mechanisms that maintain reproductive barriers between sympatric species are not well defined. In flowering plants, sperm cells are immotile and are delivered to female gametes by the pollen grain. After landing on the stigmatic surface, the pollen grain germinates a polarized extension, the pollen tube, into floral tissue. After growing via polar extension to the female gametes and shuttling its cargo of sperm cells through its cytoplasm, the pollen tube signals its arrival and identity to synergid cells that flank the egg. If signaling is successful, the pollen tube and receptive synergid cell burst, and sperm cells are released for fusion with female gametes. To better understand cell-cell recognition during reproduction and how reproductive barriers are maintained between closely related species, pollen tube-initiated synergid cell calcium ion dynamics were examined during interspecific crosses. It was observed that interspecific pollen tubes successfully trigger synergid cell calcium oscillations-a hallmark of reproductive success-but signaling fails downstream of key signaling genes and sperm are not released. This work further defines pollen tube-synergid cell signaling as a critical block to interspecific hybridization and suggests that the FERONIA/LORELEI signaling mechanism plays multiple parallel roles during pollen tube reception.

Abstract Image

在种间杂交过程中,协同的细胞钙振荡完善了对FERONIA/LORELEI信号传导的理解。
关键信息:来自亲缘关系密切的物种和缺乏花粉管MYB转录因子的突变体的花粉管能够启动FER/LRE依赖的协同细胞钙振荡。生殖隔离导致新物种的进化;然而,维持同域物种之间生殖障碍的分子机制还没有很好的定义。在开花植物中,精子细胞是不动的,通过花粉粒传递给雌性配子。花粉粒落在柱头表面后,萌发一个极化的延伸部分,即花粉管,进入花组织。花粉管通过极性延伸生长到雌配子,并使其精子细胞穿梭于细胞质中,之后,花粉管向卵子侧面的协同细胞发出信号,表明其到达并识别。如果信号传导成功,花粉管和感受性协同细胞就会破裂,精子细胞就会被释放出来与雌配子融合。为了更好地了解繁殖过程中的细胞-细胞识别以及密切相关物种之间如何维持繁殖障碍,在种间杂交过程中检测了花粉管启动的协同细胞钙离子动力学。据观察,种间花粉管成功地触发了协同细胞钙振荡——这是繁殖成功的标志,但关键信号基因下游的信号传递失败,精子无法释放。这项工作进一步将花粉管协同细胞信号传导定义为种间杂交的关键阻断,并表明FERONIA/LORELEI信号传导机制在花粉管接收过程中发挥多重平行作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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