Comparative Transcriptomic Analysis of Soybean Cyst Nematode Inbred Populations Non-adapted or Adapted on Soybean rhg1-a/Rhg4-Mediated Resistance.

IF 2.6 2区 农林科学 Q2 PLANT SCIENCES Phytopathology Pub Date : 2024-10-01 Epub Date: 2024-10-04 DOI:10.1094/PHYTO-03-24-0095-R
Khee Man Kwon, Rick E Masonbrink, Thomas R Maier, Michael N Gardner, Andrew J Severin, Thomas J Baum, Melissa G Mitchum
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Abstract

Soybean cyst nematode (SCN, Heterodera glycines) is most effectively managed through planting resistant soybean cultivars, but the repeated use of the same resistance sources has led to a widespread emergence of virulent SCN populations that can overcome soybean resistance. Resistance to SCN HG type 0 (Race 3) in soybean cultivar Forrest is mediated by an epistatic interaction between the soybean resistance genes rhg1-a and Rhg4. We previously developed two SCN inbred populations by mass-selecting SCN HG type 0 (Race 3) on susceptible and resistant recombinant inbred lines, derived from a cross between Forrest and the SCN-susceptible cultivar Essex, which differ for Rhg4. To identify SCN genes potentially involved in overcoming rhg1-a/Rhg4-mediated resistance, we conducted RNA sequencing on early parasitic juveniles of these two SCN inbred populations infecting their respective hosts, only to discover a handful of differentially expressed genes (DEGs). However, in a comparison with early parasitic juveniles of an avirulent SCN inbred population infecting a resistant host, we discovered 59 and 171 DEGs uniquely up- or downregulated in virulent parasitic juveniles adapted on the resistant host. Interestingly, the proteins coded by these 59 DEGs included vitamin B-associated proteins (reduced folate carrier, biotin synthase, and thiamine transporter) and nematode effectors known to play roles in plant defense suppression, suggesting that virulent SCN may exert a heightened transcriptional response to cope with enhanced plant defenses and an altered nutritional status of a resistant soybean host. [Formula: see text] Copyright © 2024 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license.

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不适应或适应大豆 rhg1-a/Rhg4 介导的抗性的大豆胞囊线虫近交系种群的转录组比较分析。
大豆胞囊线虫(SCN,Heterodera glycines)最有效的防治方法是种植抗性大豆栽培品种,但重复使用相同的抗性来源已导致能够克服大豆抗性的强毒力 SCN 种群的广泛出现。大豆栽培品种 Forrest 对 SCN HG 0 型(Race 3)的抗性是由大豆抗性基因 rhg1-a 和 Rhg4 之间的外显相互作用介导的。之前,我们通过在易感和抗性重组近交系上大量选择 SCN HG 0 型(Race 3),培育出了两个 SCN 近交系群体,这两个近交系分别来自福瑞斯特和 SCN 易感栽培品种 Essex 的杂交种,它们的 Rhg4 存在差异。为了确定可能参与克服 rhg1-a/Rhg4 介导的抗性的 SCN 基因,我们对感染各自宿主的这两个 SCN 近交种群的早期寄生幼虫进行了 RNA 测序,结果只发现了少数几个差异表达基因(DEG)。然而,在与感染抗性宿主的无毒 SCN 近交种群的早期寄生幼虫进行比较时,我们分别发现了 59 个和 171 个 DEGs,这些 DEGs 在适应抗性宿主的毒性寄生幼虫中具有独特的上调或下调。有趣的是,这 59 个 DEGs 编码的蛋白包括维生素 B 相关蛋白(还原叶酸载体、生物素合成酶和硫胺素转运体)和已知在植物防御抑制中发挥作用的线虫效应物,这表明毒力 SCN 可能会加强转录反应,以应对植物防御能力的增强和抗性大豆宿主营养状况的改变。
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来源期刊
Phytopathology
Phytopathology 生物-植物科学
CiteScore
5.90
自引率
9.40%
发文量
505
审稿时长
4-8 weeks
期刊介绍: Phytopathology publishes articles on fundamental research that advances understanding of the nature of plant diseases, the agents that cause them, their spread, the losses they cause, and measures that can be used to control them. Phytopathology considers manuscripts covering all aspects of plant diseases including bacteriology, host-parasite biochemistry and cell biology, biological control, disease control and pest management, description of new pathogen species description of new pathogen species, ecology and population biology, epidemiology, disease etiology, host genetics and resistance, mycology, nematology, plant stress and abiotic disorders, postharvest pathology and mycotoxins, and virology. Papers dealing mainly with taxonomy, such as descriptions of new plant pathogen taxa are acceptable if they include plant disease research results such as pathogenicity, host range, etc. Taxonomic papers that focus on classification, identification, and nomenclature below the subspecies level may also be submitted to Phytopathology.
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