磷酸盐饥饿反应调节因子 PHR2 可拮抗美蒂莎草的轴丝维持。

IF 9.4 1区 生物学 Q1 Agricultural and Biological Sciences New Phytologist Pub Date : 2024-12-01 Epub Date: 2024-05-27 DOI:10.1111/nph.19869
Peng Wang, Yanan Zhong, Yan Li, Wenqian Zhu, Yuexuan Zhang, Jingyang Li, Zuohong Chen, Erik Limpens
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引用次数: 0

摘要

磷酸盐饥饿反应(PHR)转录因子通过与磷酸盐饥饿反应基因启动子中的 P1BS 顺式元件结合,在调节植物磷酸盐吸收方面发挥着重要作用。最近的研究还表明,PHRs 还能通过控制许多共生基因的表达,对水稻和荷花的丛生菌根定殖起到积极的调节作用。然而,它们在假根发育中的作用仍不清楚。在Medicago中,我们曾发现假根降解是由两个SPX蛋白控制的,这两个蛋白在含有假根的细胞中高度表达。由于 SPX 蛋白与 PHRs 结合并以磷酸依赖的方式抑制其活性,我们研究了轴丝的维持是否也受 PHR 的调控。在这里,我们发现 PHR2 是 Medicago 磷酸盐饥饿反应的主要调节因子。敲除phr2后,磷酸饥饿反应、共生基因表达和真菌定殖水平均有所降低。然而,形成的轴丝降解较少,这表明 PHR2 在轴丝维持中起着负面作用。过量表达 PHR2 会导致假轴的降解增强,这一观察结果也证实了这一点。尽管许多假茎诱导基因的启动子中含有 P1BS 元件,但我们发现共生磷酸盐转运体 PT4 启动子中的 P1BS 顺式元件并不是含假茎细胞表达所必需的。由于PHR2和SPX1/3都会对轴丝的维持产生负面影响,我们的研究结果表明,它们部分是通过不同的机制来控制轴丝的维持。虽然PHR2能促进共生基因的表达和定殖,但其在含轴丝细胞中的活性需要严格控制,以维持Medicago的成功共生。
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The phosphate starvation response regulator PHR2 antagonizes arbuscule maintenance in Medicago.

Phosphate starvation response (PHR) transcription factors play essential roles in regulating phosphate uptake in plants through binding to the P1BS cis-element in the promoter of phosphate starvation response genes. Recently, PHRs were also shown to positively regulate arbuscular mycorrhizal colonization in rice and lotus by controlling the expression of many symbiotic genes. However, their role in arbuscule development has remained unclear. In Medicago, we previously showed that arbuscule degradation is controlled by two SPX proteins that are highly expressed in arbuscule-containing cells. Since SPX proteins bind to PHRs and repress their activity in a phosphate-dependent manner, we investigated whether arbuscule maintenance is also regulated by PHR. Here, we show that PHR2 is a major regulator of the phosphate starvation response in Medicago. Knockout of phr2 showed reduced phosphate starvation response, symbiotic gene expression, and fungal colonization levels. However, the arbuscules that formed showed less degradation, suggesting a negative role for PHR2 in arbuscule maintenance. This was supported by the observation that overexpression of PHR2 led to enhanced degradation of arbuscules. Although many arbuscule-induced genes contain P1BS elements in their promoters, we found that the P1BS cis-elements in the promoter of the symbiotic phosphate transporter PT4 are not required for arbuscule-containing cell expression. Since both PHR2 and SPX1/3 negatively affect arbuscule maintenance, our results indicate that they control arbuscule maintenance partly via different mechanisms. While PHR2 potentiates symbiotic gene expression and colonization, its activity in arbuscule-containing cells needs to be tightly controlled to maintain a successful symbiosis in Medicago.

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来源期刊
New Phytologist
New Phytologist PLANT SCIENCES-
CiteScore
17.60
自引率
5.30%
发文量
728
审稿时长
1 months
期刊介绍: New Phytologist is a leading publication that showcases exceptional and groundbreaking research in plant science and its practical applications. With a focus on five distinct sections - Physiology & Development, Environment, Interaction, Evolution, and Transformative Plant Biotechnology - the journal covers a wide array of topics ranging from cellular processes to the impact of global environmental changes. We encourage the use of interdisciplinary approaches, and our content is structured to reflect this. Our journal acknowledges the diverse techniques employed in plant science, including molecular and cell biology, functional genomics, modeling, and system-based approaches, across various subfields.
期刊最新文献
Marine macrophytes in a changing world: mechanisms underpinning responses and resilience to environmental stress - an introduction to a Virtual Issue. The New Phytologist Tansley Medal 2024 - Matthew Naish. The phosphate starvation response regulator PHR2 antagonizes arbuscule maintenance in Medicago. Arabidopsis enters the single-cell proteomics era. m6A demethylase OsALKBH5 is required for double-strand break formation and repair by affecting mRNA stability in rice meiosis.
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