DORN1/P2K1 和植物中的嘌呤-钙信号转导：细胞外 ATP 掀起波澜。

DORN1/P2K1 and purino-calcium signalling in plants: making waves with extracellular ATP.

机构信息

Department of Plant Sciences, University of Cambridge, Cambridge, UK.

Institute of Integrative Plant Biology, School of Life Science, Jiangsu Normal University, Xuzhou, China.

出版信息

Ann Bot. 2020 Jan 6;124(7):1227-1242. doi: 10.1093/aob/mcz135.

DOI:10.1093/aob/mcz135

PMID:31904093

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6943698/

Abstract

BACKGROUND AND AIMS

Extracellular ATP governs a range of plant functions, including cell viability, adaptation and cross-kingdom interactions. Key functions of extracellular ATP in leaves and roots may involve an increase in cytosolic free calcium as a second messenger ('calcium signature'). The main aim here was to determine to what extent leaf and root calcium responses require the DORN1/P2K1 extracellular ATP receptor in Arabidopsis thaliana. The second aim was to test whether extracellular ATP can generate a calcium wave in the root.

METHODS

Leaf and root responses to extracellular ATP were reviewed for their possible links to calcium signalling and DORN1/P2K1. Leaves and roots of wild type and dorn1 plants were tested for cytosolic calcium increase in response to ATP, using aequorin. The spatial abundance of DORN1/P2K1 in the root was estimated using green fluorescent protein. Wild type roots expressing GCaMP3 were used to determine the spatial variation of cytosolic calcium increase in response to extracellular ATP.

KEY RESULTS

Leaf and root ATP-induced calcium signatures differed markedly. The leaf signature was only partially dependent on DORN1/P2K1, while the root signature was fully dependent. The distribution of DORN1/P2K1 in the root supports a key role in the generation of the apical calcium signature. Root apical and sub-apical calcium signatures may operate independently of each other but an apical calcium increase can drive a sub-apical increase, consistent with a calcium wave.

CONCLUSION

DORN1 could underpin several calcium-related responses but it may not be the only receptor for extracellular ATP in Arabidopsis. The root has the capacity for a calcium wave, triggered by extracellular ATP at the apex.

摘要

背景与目的

细胞外 ATP 调控着一系列植物功能，包括细胞活力、适应和跨界相互作用。细胞外 ATP 在叶片和根部的关键功能可能涉及作为第二信使的细胞质游离钙增加（“钙信号”）。这里的主要目的是确定拟南芥中叶片和根部钙反应在多大程度上需要 DORN1/P2K1 细胞外 ATP 受体。第二个目的是测试细胞外 ATP 是否可以在根部产生钙波。

方法

综述了叶片和根部对外界 ATP 的反应，以确定其与钙信号和 DORN1/P2K1 的可能联系。使用发光蛋白测定法测试野生型和 dorn1 植物叶片和根部对 ATP 反应时细胞质钙增加。使用绿色荧光蛋白估计根部 DORN1/P2K1 的空间丰度。使用表达 GCaMP3 的野生型根来确定对细胞外 ATP 反应时细胞质钙增加的空间变化。

主要结果

叶片和根部 ATP 诱导的钙信号明显不同。叶片信号仅部分依赖于 DORN1/P2K1，而根部信号完全依赖。根部 DORN1/P2K1 的分布支持其在产生顶端钙信号中的关键作用。根顶端和亚顶端钙信号可能彼此独立运作，但顶端钙增加可以驱动亚顶端增加，与钙波一致。

结论

DORN1 可能为几种钙相关反应提供基础，但它可能不是拟南芥细胞外 ATP 的唯一受体。根具有通过顶端的细胞外 ATP 触发钙波的能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/28bd/6943698/ea88b3a9b5a2/mcz135f0001.jpg

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DORN1/P2K1 和植物中的嘌呤-钙信号转导：细胞外 ATP 掀起波澜。

DORN1/P2K1 and purino-calcium signalling in plants: making waves with extracellular ATP.

机构信息

出版信息

BACKGROUND AND AIMS

METHODS

KEY RESULTS

CONCLUSION

背景与目的

方法

主要结果

结论

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