Not only priming: Soil microbiota may protect tomato from root pathogens

机译：不仅引发：土壤微生物可以保护番茄免受根系病原体的侵害

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An increasing number of studies have investigated soil microbial biodiversity. However, the mechanisms regulating plant responses to soil microbiota are largely unknown. A previous work tested the hypothesis that tomato plants grown on native soils with their complex microbiotas respond differently from tomato growing in a sterile substrate. Two soils, suppressive or conducive to Fusarium oxysporum f. sp. lycopersici (FOL), and two genotypes susceptible and resistant to the same pathogen were considered. The work highlighted that the two tested soil microbiotas, irrespectively of their taxonomic composition, elicit the PAMP-triggered Immunity Pathway, the first level of plant defence, as well as an increased lignin synthesis, leading to an active protection when FOL is present in the soil. Here, we tested the expression of a panel of genes involved in Effector-Triggered Immunity (ETI), demonstrating that soil microbiota, beside genotype, affects plant resistance to FOL also modulating this pathway.

机译：越来越多的研究调查了土壤微生物的生物多样性。然而，调节植物对土壤微生物的反应的机制在很大程度上是未知的。先前的工作检验了以下假设：在具有复杂微生物群的天然土壤上生长的番茄植株与在无菌基质中生长的番茄的响应不同。两种土壤，抑制或有利于尖孢镰刀菌f。 sp。 lycopersici（FOL），以及对同一病原体易感和耐药的两种基因型。这项工作着重指出，这两个被测试的土壤微生物区系，不论其生物分类学组成如何，均会引发PAMP触发的免疫途径，植物防御的第一级水平以及木质素合成的增加，从而在果蝇中存在FOL时能够提供主动保护。泥。在这里，我们测试了效应触发免疫（ETI）中涉及的一组基因的表达，表明除基因型外，土壤微生物群还影响植物对FOL的抗性，也调节了该途径。

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期刊名称 Plant Signaling Behavior
作者
Matteo Chialva; Yang Zhou; Davide Spadaro; Paola Bonfante;
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作者单位

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年(卷),期 2018(13),8
年度 2018
页码 e1464855
总页数 3
原文格式 PDF
正文语种
中图分类医学行为学;
关键词
Fusarium oxysporum f. sp. lycopersici; arbuscular mycorrhizal fungi defence responses lignin biosynthesis microbiota suppressive and conducive soils susceptible and resistant genotypes tomato gene expression;

机译：尖孢镰刀菌f。 sp。 lycopersici;丛枝菌根真菌;防御反应;木质素生物合成;微生物群;抑制性土壤和有益土壤;易感和抗性基因型;番茄;基因表达;
入库时间 2022-08-17 12:33:21

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专利

1. Not only priming: Soil microbiota may protect tomato from root pathogens [J] . Chialva Matteo, Zhou Yang, Spadaro Davide, Plant signaling & behavior . 2018,第8期

机译：不仅引发：土壤微生物群可以保护番茄免受根茎病原体
2. Priming by rhizobacterium protects tomato plants from biotrophic and necrotrophic pathogen infections through multiple defense mechanisms [J] . Il-Pyung Ahn, Sang-Woo Lee, Min Gab Kim, Molecules and Cells . 2011,第1期

机译：根瘤菌引发通过多种防御机制保护番茄植物免受生物营养和坏死性病原体的感染
3. Priming by rhizobacterium protects tomato plants from biotrophic and necrotrophic pathogen infections through multiple defense mechanisms. [J] . Ahn IP, Lee SW, Kim MG, Molecules and cells . 2011,第1期

机译：根瘤菌引发可通过多种防御机制保护番茄植物免受生物营养和坏死性病原体感染。
4. COMBINATION OF SOIL SOLARIZATION AND DAZOMET AGAINST SOILBORNE PATHOGENS OF GLASSHOUSE-GROWN BASIL, TOMATO AND LETTUCE [C] . A. Minuto, G. Gilardi, M.L. Gullino International Symposium on Chemical and Non-Chemical Soil and Substrate Disinfestation . 2000

机译：土壤晒化和达希测图测量对玻璃生长罗勒，番茄和生菜的粉土病变的组合
5. Effects of Soil Chemistry, Belowground Microbiota, and Disease Management on Health and Yield of Field-Grown Processing Tomatoes in California [D] . Maharaj, Nilesh Nathan. 2016

机译：土壤化学，地下微生物区系和疾病管理对加利福尼亚田间加工番茄健康和产量的影响
6. Priming by Rhizobacterium Protects Tomato Plants from Biotrophic and Necrotrophic Pathogen Infections through Multiple Defense Mechanisms [O] . Il-Pyung Ahn, Sang-Woo Lee, Min Gab Kim, 2011

机译：根瘤菌的启动通过多种防御机制保护番茄植物免受生物营养和坏死性病原体的感染
7. Not only priming: Soil microbiota may protect tomato from root pathogens [O] . Matteo Chialva, Yang Zhou, Davide Spadaro, 2018

机译：不仅引发：土壤微生物群可以保护番茄免受根病原菌

Not only priming: Soil microbiota may protect tomato from root pathogens

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