An outlook on ion signaling and ionome of mycorrhizal symbiosis

Brazilian Journal of Plant Physiology Pub Date : 2011-01-01 DOI:10.1590/S1677-04202011000100010

A. C. Ramos, A. Façanha, Livia M. Palma, L. Okorokov, Z. M. Cruz, Ary Gomes Silva, A. F. Siqueira, A. Bertolazi, G. C. Canton, J. Melo, Wolmen Oliveira dos Santos, Vanusa Maria Bonatto Schimitberger, A. L. Okorokova-Façanha

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引用次数: 20

Abstract

The 450-million-year-old interaction between the majority of land plants and mycorrhizal fungi is one of the most ancient, abundant, and ecologically important symbiosis on earth. The early events in the evolution of mycorrhizal symbioses seem to have involved reciprocal genetic changes in ancestral plants and free-living fungi. new data on the mechanism of action of specific signaling molecules and how it influence and is influenced by the membrane ions fluxes and cytoplasm ion oscillations which integrate the symbiotic ionome are improving our understanding of the molecular bases of the mycorrhization process. This mini-review will highlight topics regarding what is known about the ionome and ionic communication in the arbuscular mycorrhizal symbiosis focusing on the signals involved in the development of symbioses. Here we present an overview integrating the available data with the prospects of the research in the field.

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菌根共生的离子信号和离子素研究进展

大多数陆地植物和菌根真菌之间的相互作用有4.5亿年的历史，是地球上最古老、最丰富、最重要的生态共生关系之一。菌根共生进化的早期事件似乎涉及祖先植物和自由生活真菌的相互遗传变化。关于特定信号分子作用机制的新数据，以及它如何影响和受整合共生离子的膜离子通量和细胞质离子振荡的影响，正在提高我们对菌根过程的分子基础的理解。这篇小型综述将重点介绍在丛枝菌根共生中已知的离子单体和离子通信，重点关注共生发展中涉及的信号。在这里，我们提出了一个概述，整合现有的数据和前景的研究领域。

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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Brazilian Journal of Plant Physiology

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