Transcriptomic response of Pinus massoniana to infection stress from the pine wood nematode Bursaphelenchus xylophilus.

Yibo An, Yongxia Li, Ling Ma, Dongzhen Li, Wei Zhang, Yuqian Feng, Zhenkai Liu, Xuan Wang, Xiaojian Wen, Xingyao Zhang
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Abstract

The pinewood nematode (PWN) Bursaphelenchus xylophilus is a forestry quarantine pest and causes an extremely dangerous forest disease that is spreading worldwide. Due to the complex pathogenic factors of pine wood nematode disease, the pathogenesis is still unknown. B. xylophilus ultimately invades a host and causes death. However, little is known about the defence-regulating process of host pine after infection by B. xylophilus at the molecular level. Therefore, we wanted to understand how Pinus massoniana regulates its response to invasion by B. xylophilus. P. massoniana were artificially inoculated with B. xylophilus solution, while those without B. xylophilus solution were used as controls. P. massoniana inoculated with B. xylophilus solution for 0 h, 6 h, 24 h, and 120 h was subjected to high-throughput sequencing to obtain transcriptome data. At various time points (0 h, 6 h, 24 h, 120 h), gene transcription was measured in P. massoniana inoculated with PWN. At different time points, P. massoniana gene transcription differed significantly, with a response to early invasion by PWN. According to Gene Ontology (GO) classification and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analysis, P. massoniana response to PWN invasion involves a wide range of genes, including plant hormone signal transformation, flavonoid biosynthesis, amino sugar and nucleoside sugar metabolism, and MAPK signalling pathways. Among them, inoculation for 120 hours had the greatest impact on differential genes. Subsequently, weighted gene coexpression network analysis (WGCNA) was used to analyse transcriptional regulation of P. massoniana after PWN infection. The results showed that the core gene module of P. massoniana responding to PWN was "MEmagenta", enriched in oxidative phosphorylation, amino sugar and nucleotide sugar metabolism, and the MAPK signalling pathway. MYB family transcription factors with the highest number of changes between infected and healthy pine trees accounted for 20.4% of the total differentially expressed transcription factors. To conclude, this study contributes to our understanding of the molecular mechanism of initial PWN infection of P. massoniana. Moreover, it provides some important background information on PWN pathogenic mechanisms.

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马尾松对松材线虫侵染胁迫的转录组反应。
松材线虫(Bursaphelenchus xylophilus)是一种森林检疫性有害生物,是一种在世界范围内传播的极其危险的森林疾病。由于松材线虫病致病因素复杂,其发病机制尚不清楚。B. xylophilus最终入侵宿主并导致死亡。然而,在分子水平上对寄主松木侵染后的防御调控过程知之甚少。因此,我们想要了解马尾松如何调节其对木嗜木杆菌入侵的反应。以马尾松为对照,人工接种嗜木双歧杆菌溶液,不接种嗜木双歧杆菌溶液。马尾松与嗜木杆菌溶液接种0 h、6 h、24 h和120 h,进行高通量测序,获得转录组数据。在不同时间点(0 h、6 h、24 h、120 h),对接种PWN的马尾松进行基因转录测定。不同时间点马尾松基因转录差异显著,对PWN的早期侵袭有响应。根据基因本体(GO)分类和京都基因与基因组百科全书(KEGG)富集分析,马尾松对PWN入侵的响应涉及广泛的基因,包括植物激素信号转化、类黄酮生物合成、氨基糖和核苷糖代谢以及MAPK信号通路。其中,接种120 h对差异基因的影响最大。随后,采用加权基因共表达网络分析(WGCNA)分析马尾松感染PWN后的转录调控。结果表明,马尾松响应PWN的核心基因模块为“MEmagenta”,富含氧化磷酸化、氨基糖和核苷酸糖代谢以及MAPK信号通路。感染松树与健康松树之间变化最多的MYB家族转录因子占总差异表达转录因子的20.4%。综上所述,本研究有助于我们了解马尾松PWN初始感染的分子机制。此外,它还为PWN的发病机制提供了一些重要的背景信息。
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Correction: Zinc metalloprotease FgM35, which targets the wheat zinc-binding protein TaZnBP, contributes to the virulence of Fusarium graminearum. SPIRRIG is required for BRICK1 stability and salt stress induced root hair developmental plasticity in Arabidopsis. Single-cell transcriptomic analysis reveals the developmental trajectory and transcriptional regulatory networks of quinoa salt bladders. Metabolic regulation of 5-oxoproline for enhanced heat tolerance in perennial ryegrass. Zinc metalloprotease FgM35, which targets the wheat zinc-binding protein TaZnBP, contributes to the virulence of Fusarium graminearum.
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