Unraveling the molecular mechanisms underlying flat stem formation in Atractylodes lancea in response to phytoplasmas.

IF 5.4 2区生物学 Q1 PLANT SCIENCES

Physiologia plantarum Pub Date : 2025-03-01 DOI:10.1111/ppl.70192

Ling Gong, Lei Chen, Xiao Huang, Juan Deng, Xiaoyi Wu, Yating Hu, Meiling Jiang, Kun Yu, Changli Liu

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Abstract

For centuries, the herb Atractylodes lancea (Thunb.) has been revered for its pharmacological properties, particularly its efficacy in combating spleen and stomach ailments. However, prolonged artificial cultivation of A. lancea has led to an increased presence of serious plant diseases, including flat branch disease caused by phytoplasmas. To elucidate the mechanisms of flat stem (FS) formation, physiological and biochemical indicators, as well as related metabolic pathways were assessed in A. lancea stems following phytoplasma infection. The results demonstrated significant changes in the levels of stress compounds H₂O₂ and MDA, as well as the activities of antioxidant enzymes APX, POD, PPO, and CAT. Additionally, the FS structures of A. lancea exhibited elevated levels of JA and zeatin, accompanied by a decrease in auxin content. High-throughput sequencing identified differentially expressed genes (DEGs) enriched in various pathways, including hormone biosynthesis, signal transduction, and Ca²⁺ signalling. These findings enhance our understanding of phytoplasma-induced FS development in A. lancea and provide a basis for future molecular studies.

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白术在植物浆体作用下扁平茎形成的分子机制。

几个世纪以来，草药苍术因其药理特性而备受推崇，尤其是其治疗脾胃疾病的功效。然而，长时间的人工栽培导致了严重植物病害的增加，包括由植物原体引起的平枝病。为了阐明平茎（FS）的形成机制，研究了植物原体侵染后刺槐茎的生理生化指标及相关代谢途径。结果表明，胁迫化合物H2O2和MDA水平以及抗氧化酶APX、POD、PPO和CAT活性发生了显著变化。此外，刺槐FS结构中JA和玉米素含量升高，生长素含量降低。高通量测序鉴定了不同途径中富集的差异表达基因（DEGs），包括激素生物合成、信号转导和Ca2+信号传导。这些发现有助于加深我们对植物原体诱导的刺花蒿FS发育的认识，并为今后的分子研究提供基础。

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来源期刊

Physiologia plantarum 生物-植物科学

CiteScore

11.00

自引率

3.10%

发文量

224

审稿时长

3.9 months

期刊介绍： Physiologia Plantarum is an international journal committed to publishing the best full-length original research papers that advance our understanding of primary mechanisms of plant development, growth and productivity as well as plant interactions with the biotic and abiotic environment. All organisational levels of experimental plant biology – from molecular and cell biology, biochemistry and biophysics to ecophysiology and global change biology – fall within the scope of the journal. The content is distributed between 5 main subject areas supervised by Subject Editors specialised in the respective domain: (1) biochemistry and metabolism, (2) ecophysiology, stress and adaptation, (3) uptake, transport and assimilation, (4) development, growth and differentiation, (5) photobiology and photosynthesis.