Regulation of Na + and K + homeostasis in plants: towards improved salt stress tolerance in crop plants

Diego M. Almeida; Nelson J. M. Saibo; M. Margarida Oliveira

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Regulation of Na + and K + homeostasis in plants: towards improved salt stress tolerance in crop plants

机译：调节植物Na +和K +稳态：改善作物植物的盐胁迫耐受性

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Soil salinity is a major abiotic stress that results in considerable crop yield losses worldwide. However, some plant genotypes show a high tolerance to soil salinity, as they manage to maintain a high K + /Na + ratio in the cytosol, in contrast to salt stress susceptible genotypes. Although, different plant genotypes show different salt tolerance mechanisms, they all rely on the regulation and function of K + and Na + transporters and H + pumps, which generate the driving force for K + and Na + transport. In this review we will introduce salt stress responses in plants and summarize the current knowledge about the most important ion transporters that facilitate intra- and intercellular K + and Na + homeostasis in these organisms. We will describe and discuss the regulation and function of the H + -ATPases, H + -PPases, SOS1, HKTs, and NHXs, including the specific tissues where they work and their response to salt stress.

机译：土壤盐分是一种主要的非生物胁迫，导致全球范围内农作物减产。但是，某些植物基因型对土壤盐分的耐受性很高，因为与盐胁迫敏感的基因型相反，它们设法在细胞质中保持较高的K + / Na +比值。尽管不同的植物基因型表现出不同的耐盐性机制，但它们都依赖于K +和Na +转运蛋白和H +泵的调节和功能，它们产生了K +和Na +转运的驱动力。在这篇综述中，我们将介绍植物中的盐胁迫反应，并概述有关促进这些生物中细胞内和细胞间K +和Na +稳态的最重要离子转运蛋白的当前知识。我们将描述和讨论H + -ATPase，H + -PPase，SOS1，HKT和NHX的调控和功能，包括它们在其中工作的特定组织以及它们对盐胁迫的反应。

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《Genetics and molecular biology: publication of the Sociedade Brasileira de Genetica 》 |2017年第1期| 共页
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Diego M. Almeida; Nelson J. M. Saibo; M. Margarida Oliveira;
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1. Regulation of Na+ and K+ homeostasis in plants: towards improved salt stress tolerance in crop plants [J] . Almeida Diego M., Oliveira M. Margarida, Saibo Nelson J. M. Genetics and molecular biology: publication of the Sociedade Brasileira de Genetica . 2017 ,第1期

机译：调节植物中Na +和K +稳态：提高作物对盐胁迫的耐受性
2. Karrikin Improves Osmotic and Salt Stress Tolerance via the Regulation of the Redox Homeostasis in the Oil Plant Sapium sebiferum [J] . Faheem Afzal Shah, Xiao Wei, Qiaojian Wang, Frontiers in Plant Science . 2020 ,第12期

机译：Karrikin通过通过通过在油厂中的redox稳态调节 sapium sebiferum
3. Sodium (Na+) homeostasis and salt tolerance of plants. (Special Issue: Sustainable cultivation and exploitation of halophyte crops in a salinizing world.) [J] . Hasegawa P. M. Environmental and experimental botany . 2013 ,第Null期

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4. Regulation of Ion Homeostasis by Aminolevulinic Acid in Salt-Stressed Wheat Seedlings [C] . Hülya TüRK, Mucip GEN??EL, Serkan ERDAL International Conference on Advances in Natural and Applied Sciences . 2016

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5. Exploring the Mechanisms of Desiccation Tolerance in Resurrection Plants: Toward Developing Desiccation Tolerance Crops [D] . Kang, Sang-Ho. 2013

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6. Regulation of Na+ and K+ homeostasis in plants: towards improved salt stress tolerance in crop plants [O] . Diego M. Almeida, M. Margarida Oliveira, Nelson J. M. Saibo 2017

机译：调节植物中Na +和K +稳态：提高作物对盐胁迫的耐受性
7. Regulation of Na+ and K+ homeostasis in plants: towards improved salt stress tolerance in crop plants [O] . Diego M. Almeida, M. Margarida Oliveira, Nelson J. M. Saibo 2017

机译：调节植物中Na +和K +稳态：改善作物植物的盐胁迫耐受性
8. Environmental stress-mediated changes in transcriptional and translational regulation of protein synthesis in crop plants. Final report [R] . 1996

机译：环境胁迫介导的作物植物蛋白质合成的转录和翻译调控的变化。总结报告

Regulation of Na + and K + homeostasis in plants: towards improved salt stress tolerance in crop plants

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