Comparative Field Evaluation and Transcriptome Analysis Reveals that Chromosome Doubling Enhances Sheath Blight Resistance in Rice.

IF 4.8 1区 农林科学 Q1 AGRONOMY Rice Pub Date : 2024-07-03 DOI:10.1186/s12284-024-00722-y
Sanglin Liu, Jiahao Liu, Wei Wang, Yugang Yan, Tianya Wang, Jinwen Wu, Xiangdong Liu, Jian Wu, Yuxiang Zeng
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Abstract

Rice sheath blight, caused by Rhizoctonia solani Kihn (R. solani), poses a significant threat to rice production and quality. Autotetraploid rice, developed through chromosome doubling of diploid rice, holds great potential for enhancing biological and yield traits. However, its resistance to sheath blight in the field has remained unclear. In this study, the field resistance of 35 autotetraploid genotypes and corresponding diploids was evaluated across three environments from 2020 to 2021. The booting stage was optimal for inoculating period based on the inoculation and analysis of R. solani at five rice growth stages. We found autotetraploids generally exhibited lower disease scores than diploids, indicating enhanced resistance after chromosome doubling. Among the 35 genotypes, 16 (45.71%) displayed increased resistance, 2 (5.71%) showed decreased resistance, and 17 (48.57%) displayed unstable resistance in different sowing dates. All combinations of the genotype, environment and ploidy, including the genotype-environment-ploidy interaction, contributed significantly to field resistance. Chromosome doubling increased sheath blight resistance in most genotypes, but was also dependent on the genotype-environment interaction. To elucidate the enhanced resistance mechanism, RNA-seq revealed autotetraploid recruited more down-regulated differentially expressed genes (DEGs), additionally, more resistance-related DEGs, were down-regulated at 24 h post inoculation in autotetraploid versus diploid. The ubiquinone/terpenoid quinone and diterpenoid biosynthesis pathways may play key roles in ploidy-specific resistance mechanisms. In summary, our findings shed light on the understanding of sheath blight resistance mechanisms in autotetraploid rice.

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田间比较评估和转录组分析揭示染色体加倍可增强水稻的抗鞘枯病能力
由Rhizoctonia solani Kihn(R. solani)引起的水稻鞘枯病对水稻的产量和质量构成了严重威胁。通过二倍体水稻染色体加倍培育出的自交系水稻在提高生物和产量性状方面具有巨大潜力。然而,自交系水稻在田间对鞘枯病的抗性仍不明确。本研究从 2020 年到 2021 年在三种环境中对 35 个自交系基因型和相应二倍体的田间抗性进行了评估。根据在水稻五个生长阶段对 R. solani 的接种和分析,确定了最佳接种期为拔节期。我们发现自交系的病害得分普遍低于二倍体,这表明染色体加倍后抗性增强。在 35 个基因型中,16 个(45.71%)在不同播种期表现出抗性增强,2 个(5.71%)表现出抗性减弱,17 个(48.57%)表现出抗性不稳定。基因型、环境和倍性的所有组合,包括基因型-环境-倍性的交互作用,都对田间抗性有显著影响。染色体加倍提高了大多数基因型的鞘枯病抗性,但也取决于基因型与环境之间的相互作用。为了阐明抗性增强的机制,RNA-seq 发现自交系与二倍体相比,在接种后 24 小时内,自交系招募了更多下调的差异表达基因(DEGs),此外,更多与抗性相关的 DEGs 被下调。泛醌/类萜醌和二萜生物合成途径可能在多倍体特异性抗性机制中发挥关键作用。总之,我们的研究结果有助于了解自交系水稻的鞘枯病抗性机制。
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来源期刊
Rice
Rice AGRONOMY-
CiteScore
10.10
自引率
3.60%
发文量
60
审稿时长
>12 weeks
期刊介绍: Rice aims to fill a glaring void in basic and applied plant science journal publishing. This journal is the world''s only high-quality serial publication for reporting current advances in rice genetics, structural and functional genomics, comparative genomics, molecular biology and physiology, molecular breeding and comparative biology. Rice welcomes review articles and original papers in all of the aforementioned areas and serves as the primary source of newly published information for researchers and students in rice and related research.
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