茉莉酸模拟物通过黄铜类固醇信号调节拮抗的 bHLH 转录因子，从而调节细胞伸长

IF 6.9 1区生物学 Q1 PLANT SCIENCES

Plant Physiology Pub Date : 2024-04-18 DOI:10.1093/plphys/kiae217

Xing Wang, Zhaobin Ren, Shipeng Xie, Zhaohu Li, Yuyi Zhou, Liusheng Duan

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引用次数: 0

摘要

匍匐茎限制了玉米（Zea mays L.）的生长、发育和产量形成。缩短节间长度有利于抗倒伏。然而，尽管已知黄铜类固醇（BRs）和茉莉酸（JA）能拮抗地调节节间生长，但其潜在的分子机制仍不清楚。在这项研究中，应用 JA 模拟物冠突霉素（COR）可抑制节间在接合阶段的基本伸长，并抑制细胞壁相关基因 XYLOGLUCAN ENDOTRANSGLUCOSYLASE/HYDROLASE 1（ZmXTH1）的表达，该基因在玉米植株中的过度表达可促进节间伸长。我们证实，碱性螺旋环螺旋（bHLH）转录因子 ZmbHLH154 可直接与 ZmXTH1 启动子结合并诱导其表达，而 bHLH 转录因子 ILI1 BINDING BHLH 1（ZmIBH1）则通过与 ZmbHLH154 形成异源二聚体来抑制这种转录激活。过量表达 ZmbHLH154 会导致节间变长，而 zmbhlh154 突变体的节间比野生型短。依赖 JA 的核心转录因子 ZmMYC2-4 和 ZmMYC2-6 与 BR 信号转导的关键因子 BRASSINAZOLE RESISTANT 1（ZmBZR1）相互作用，这些相互作用消除了 ZmBZR1 对其下游基因 ZmIBH1 的抑制作用。总之，这些结果揭示了一个信号模块，在这个模块中，JA通过削弱BR信号来抑制ZmXTH1的表达，从而调节玉米的细胞伸长。

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Jasmonate mimic modulates cell elongation by regulating antagonistic bHLH transcription factors via brassinosteroid signaling

Lodging restricts growth, development, and yield formation in maize (Zea mays L.). Shorter internode length is beneficial for lodging tolerance. However, although brassinosteroids (BRs) and jasmonic acid (JA) are known to antagonistically regulate internode growth, the underlying molecular mechanism is still unclear. In this study, application of the JA mimic coronatine (COR) inhibited basal internode elongation at the jointing stage and repressed expression of the cell wall-related gene XYLOGLUCAN ENDOTRANSGLUCOSYLASE/HYDROLASE 1 (ZmXTH1), whose overexpression in maize plants promotes internode elongation. We demonstrated that the basic helix–loop–helix (bHLH) transcription factor ZmbHLH154 binds directly to the ZmXTH1 promoter and induces its expression, whereas the bHLH transcription factor ILI1 BINDING BHLH 1 (ZmIBH1) inhibits this transcriptional activation by forming a heterodimer with ZmbHLH154. Overexpressing ZmbHLH154 led to longer internodes, whereas zmbhlh154 mutants had shorter internodes than the wild type. The core JA-dependent transcription factors ZmMYC2-4 and ZmMYC2-6 interacted with BRASSINAZOLE RESISTANT 1 (ZmBZR1), a key factor in BR signaling, and these interactions eliminated the inhibitory effect of ZmBZR1 on its downstream gene ZmIBH1. Collectively, these results reveal a signaling module in which JA regulates a bHLH network by attenuating BR signaling to inhibit ZmXTH1 expression, thereby regulating cell elongation in maize.

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来源期刊

Plant Physiology 生物-植物科学

CiteScore

12.20

自引率

5.40%

发文量

535

审稿时长

2.3 months

期刊介绍： Plant Physiology® is a distinguished and highly respected journal with a rich history dating back to its establishment in 1926. It stands as a leading international publication in the field of plant biology, covering a comprehensive range of topics from the molecular and structural aspects of plant life to systems biology and ecophysiology. Recognized as the most highly cited journal in plant sciences, Plant Physiology® is a testament to its commitment to excellence and the dissemination of groundbreaking research. As the official publication of the American Society of Plant Biologists, Plant Physiology® upholds rigorous peer-review standards, ensuring that the scientific community receives the highest quality research. The journal releases 12 issues annually, providing a steady stream of new findings and insights to its readership.