From hidden to visual K deficiency in plants: Integration of subcellular K+ distribution and photosynthetic performance

Crop and Environment Pub Date : 2024-02-15 DOI:10.1016/j.crope.2024.02.001

Hehe Gu, Zhifeng Lu, Tao Ren, Jianwei Lu

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Abstract

The earliest occurrence of chlorosis at the tips of the oldest leaves is widely recognized as a reliable indicator for diagnosing potassium (K) deficiency and determining the need for K fertilizer. However, hidden K deficiency, typically associated with a decrease in individual leaf photosynthetic area, precedes the onset of visible yellowing symptoms. These concealed symptoms pose challenges for the early diagnosis of K deprivation in plants. The two distinct stages of deficiency exhibit different photosynthetic performances, which are speculated to be closely linked to the subcellular K⁺ distribution. This minireview focuses on investigating K⁺ dynamics across subcellular compartments, along with the involvement of functional transporter proteins and ion channels during K deficiency. We propose potential mechanisms by which subcellular K⁺ regulates photosynthetic capacity under both hidden and visual K deficiency conditions, which sheds new light on the diagnosis of K deficiency. Additionally, future research prospects and areas deserving further investigation are also outlined.

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植物从隐性到显性 K 缺乏：亚细胞 K+ 分布与光合作用性能的整合

人们普遍认为，最早出现的老叶叶尖萎黄是诊断钾（K）缺乏症和确定是否需要施用钾肥的可靠指标。然而，隐性缺钾通常与单个叶片光合面积的减少有关，发生在可见黄化症状之前。这些隐性症状给植物钾缺乏的早期诊断带来了挑战。缺钾的两个不同阶段表现出不同的光合作用性能，据推测这与亚细胞 K+ 分布密切相关。本综述重点研究 K+在亚细胞区室中的动态变化，以及 K 缺乏时功能性转运蛋白和离子通道的参与情况。我们提出了亚细胞 K+ 在隐性和显性 K 缺乏条件下调节光合能力的潜在机制，为诊断 K 缺乏症提供了新的思路。此外，我们还概述了未来的研究前景和值得进一步研究的领域。

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

Crop and Environment

CiteScore

3.50

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0.00%

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