水稻叶际细菌的叶面喷施诱导水稻耐旱性

The Foliar Application of Rice Phyllosphere Bacteria induces Drought-Stress Tolerance in (L.).

作者信息

Devarajan Arun Kumar, Muthukrishanan Gomathy, Truu Jaak, Truu Marika, Ostonen Ivika, Kizhaeral S Subramanian, Panneerselvam Periyasamy, Kuttalingam Gopalasubramanian Sabarinathan

机构信息

Department of Agricultural Microbiology, Tamil Nadu Agricultural University, Coimbatore 641003, India.

Institute of Molecular and Cell Biology, University of Tartu, 51010 Tartu, Estonia.

出版信息

Plants (Basel). 2021 Feb 18;10(2):387. doi: 10.3390/plants10020387.

DOI:10.3390/plants10020387

PMID:33670503

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7923115/

Abstract

This study assessed the potential of PB3, PB46, and PB50 to induce drought tolerance in a susceptible rice cultivar. The leaves of the potted rice plants subjected to physical drought stress for 10 days during the flowering stage were inoculated with single-strain suspensions. Control pots of irrigated and drought-stressed plants were included in the experiment for comparison. In all treatments, the plant stress-related physiochemical and biochemical changes were examined and the expression of six stress-responsive genes in rice leaves was evaluated. The colonization potential on the surface of the rice leaves and stomata of the most successful strain in terms of induced tolerance was confirmed in the gnotobiotic experiment. The plants sprayed with PB50 showed an elevated stress tolerance based on their higher relative water content and increased contents of total sugars, proteins, proline, phenolics, potassium, calcium, abscisic acid, and indole acetic acid, as well as a high expression of stress-related genes (, , , , and ). Moreover, this strain improved yield parameters compared to other treatments and also confirmed its leaf surface colonization. Overall, this study indicates that the foliar application of PB50 can induce tolerance to drought stress in rice.

摘要

本研究评估了PB3、PB46和PB50在一个感病水稻品种中诱导耐旱性的潜力。在开花期对盆栽水稻植株进行10天的物理干旱胁迫，然后用单菌株悬浮液接种其叶片。实验中设置了灌溉和干旱胁迫植株的对照盆进行比较。在所有处理中，检测了与植物胁迫相关的理化和生化变化，并评估了水稻叶片中六个胁迫响应基因的表达。在无菌实验中证实了在诱导耐受性方面最成功的菌株在水稻叶片表面和气孔上的定殖潜力。喷施PB50的植株基于其较高的相对含水量以及总糖、蛋白质、脯氨酸、酚类、钾、钙、脱落酸和吲哚乙酸含量的增加，表现出增强的胁迫耐受性，同时胁迫相关基因（、、、和）也有高表达。此外，与其他处理相比，该菌株改善了产量参数，并且还证实了其在叶片表面的定殖。总体而言，本研究表明叶面喷施PB50可诱导水稻对干旱胁迫的耐受性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8b5a/7923115/578e5b75f3c1/plants-10-00387-g001.jpg

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水稻叶际细菌的叶面喷施诱导水稻耐旱性

The Foliar Application of Rice Phyllosphere Bacteria induces Drought-Stress Tolerance in (L.).

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