Comparative transcriptome analysis of canola carrying a single vs stacked resistance genes against clubroot

Frontiers in Plant Science Pub Date : 2024-05-21 DOI:10.3389/fpls.2024.1358605

Rui Wen, Tao Song, B. Gossen, Gary Peng

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Abstract

Pyramiding resistance genes may expand the efficacy and scope of a canola variety against clubroot (Plasmodiophora brassicae), a serious threat to canola production in western Canada. However, the mechanism(s) of multigenic resistance, especially the potential interaction among clubroot resistance (CR) genes, are not well understood. In this study, transcriptome was compared over three canola (Brassica napus L.) inbred/hybrid lines carrying a single CR gene in chromosome A03 (CRaM, Line 16) or A08 (Crr1rutb, Line 20), and both genes (CRaM+Crr1rutb, Line 15) inoculated with a field population (L-G2) of P. brassicae pathotype X, a new variant found in western Canada recently. The line16 was susceptible, while lines 15 and 20 were partially resistant. Functional annotation identified differential expression of genes (DEGs) involved in biosynthetic processes responsive to stress and regulation of cellular process; The Venn diagram showed that the partially resistant lines 15 and 20 shared 1,896 differentially expressed genes relative to the susceptible line 16, and many of these DEGs are involved in defense responses, activation of innate immunity, hormone biosynthesis and programmed cell death. The transcription of genes involved in Pathogen-Associated Molecular Pattern (PAMP)-Triggered and Effector-Triggered Immunity (PTI and ETI) was particularly up-regulated, and the transcription level was higher in line 15 (CRaM + Crr1rutb) than in line 20 (Crr1rutb only) for most of the DEGs. These results indicated that the partial resistance to the pathotype X was likely conferred by the CR gene Crr1rutb for both lines 15 and 20 that functioned via the activation of both PTI and ETI signaling pathways. Additionally, these two CR genes might have synergistic effects against the pathotype X, based on the higher transcription levels of defense-related DEGs expressed by inoculated line 15, highlighting the benefit of gene stacking for improved canola resistance as opposed to a single CR gene alone.

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携带单一抗球根病基因与叠加抗球根病基因的油菜籽转录组比较分析

抗性基因的叠加可扩大油菜品种抗球根病（Plasmodiophora brassicae）的效力和范围，球根病对加拿大西部的油菜生产构成严重威胁。然而，多基因抗性的机理，尤其是抗球根病（CR）基因之间的潜在相互作用还不十分清楚。在本研究中，比较了三个油菜（Brassica napus L.）近交/杂交品系的转录组，这三个品系在染色体 A03（CRaM，品系 16）或 A08（Crr1rutb，品系 20）上携带单一 CR 基因，或同时携带两个基因（CRaM+Crr1rutb，品系 15），接种了最近在加拿大西部发现的新变种 P. brassicae pathotype X 的田间种群（L-G2）。品系 16 易感病，而品系 15 和 20 部分抗病。功能注释确定了基因（DEGs）的差异表达，这些基因涉及对胁迫有反应的生物合成过程和细胞过程的调控；维恩图显示，相对于易感品系 16，部分抗性品系 15 和 20 共享 1,896 个差异表达基因，其中许多 DEGs 涉及防御反应、先天免疫激活、激素生物合成和细胞程序性死亡。参与病原体相关分子模式（PAMP）触发免疫和效应器触发免疫（PTI 和 ETI）的基因转录上调尤为明显，在大多数 DEGs 中，品系 15（CRaM + Crr1rutb）的转录水平高于品系 20（仅 Crr1rutb）。这些结果表明，15 号和 20 号品系对病原型 X 的部分抗性可能是由 CR 基因 Crr1rutb 通过激活 PTI 和 ETI 信号通路赋予的。此外，根据接种品系 15 表达的防御相关 DEGs 的较高转录水平，这两个 CR 基因可能对 X 病型具有协同作用，这突出表明了基因堆叠对提高油菜抗性的益处，而不是单独使用一个 CR 基因。

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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Frontiers in Plant Science

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