Ralstonia pseudosolanacearum F1C1 感染番茄和茄子幼苗茎部软化和半透明的形态学特征

Shuvam Bhuyan, Lakhyajit Boruah, Monika Jain, Shuhada Begum, Shubhra Jyoti Giri, Lukapriya Dutta, Manabendra Mandal, Suvendra Kumar Ray
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摘要

Ralstonia pseudosolanacearum F1C1 是一种土传植物病原菌,寄主范围广泛,可感染多种重要经济作物。本研究主要关注这种植物病原菌对番茄和茄子这两种重要作物幼苗的感染。研究观察发现了一系列复杂的症状,包括幼苗茎干下垂和变黑,以及子叶变黑、萎黄病和卷曲。值得注意的是,茎软化和半透明的症状主要出现在根部接种幼苗的茎部浸水区域。此外,茎软化和半透明的形态在根部接种的茄子幼苗中更为常见,这突出表明了番茄和茄子幼苗在细菌毒力方面的差异。通过研究受感染秧苗的这些独特病理表型,本研究发现了以前在秧苗接种实验中未报道过的独特症状。这些发现加深了我们对病原体复杂毒力机制的理解。这项工作还强调了幼苗表现出的独特逃逸机制,揭示了一些寄主植物如何在感染后仍能抵抗枯萎,为今后的研究提供了新的途径。这些发现有助于人们了解 R. pseudosolanacearum 的致病机理,揭示其毒力和宿主反应机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Morphology of softening and translucency in the stems of tomato and eggplant seedlings due to infection by Ralstonia pseudosolanacearum F1C1
Ralstonia pseudosolanacearum F1C1 is a soil-borne phytopathogenic bacterium with a broad host range that infects several economically important crops. This study primarily focuses on the infection of this phytopathogen in two such important crop seedlings: tomato and eggplant. The observations of the study reveal a complex set of symptoms that include drooping and blackening of the seedling stem, as well as blackening, chlorosis, and curling of cotyledon leaves. Notably, the symptom of stem softening and translucency is seen primarily in the water-submerged stem regions of the root-inoculated seedlings. Furthermore, the morphology of stem softening and translucency is more frequent in root-inoculated eggplant seedlings, underscoring a difference between tomato and eggplant seedlings regarding the virulence of the bacterium. By investigating these unique pathological phenotypes in the infected seedlings, this study uncovers unique symptoms previously not reported in seedling inoculation experiments. Such findings deepen our understanding of the complex virulence mechanisms of the pathogen. The work also highlights the distinct escape mechanisms exhibited by seedlings, revealing how some of its host plants might resist wilting despite infection, offering new avenues for future research. These findings contribute to the understanding of R. pseudosolanacearum pathogenesis, shedding light on its virulence and host response mechanisms.
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