小麦转录因子Q参与赤霉素的生物合成和信号转导，调控穗高和穗长

The Plant Cell Pub Date : 2025-07-29 DOI:10.1093/plcell/koaf183

Pan Liu, Shulin Xue, Jizeng Jia, Guangyao Zhao, Jie Liu, Yanzhen Hu, Cuizheng Kong, Dong Yan, Huan Wang, Xu Liu, Zefu Lu, Lifeng Gao

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引用次数: 0

摘要

Q基因是小麦（Triticum aestivum）的一个关键驯化基因，调控自由脱粒习性、穗形、穗高和其他关键农艺性状。然而，其功能背后的精确分子机制尚不清楚。在本研究中，我们在Q基因的第5外显子上发现了一个错义突变（G到a）的Q等位基因，导致植株高度和穗长降低。进一步的研究表明，该突变导致Gly-229-Ser氨基酸取代，从而增强了Q蛋白的稳定性。此外，我们发现Q直接结合到赤霉素3氧化酶2基因（TaGA3ox2）的启动子区域并抑制其表达。此外，Q与REDUCED HEIGHT1 （RHT1）和GIBBERELLIN INSENSITIVE 2 （TaGID2）相互作用，这可能会破坏gid2触发的RHT1降解。总的来说，这些发现揭示了Q在调节GA生物合成和信号传导中的双重作用，为Q调节小麦株高和穗长的分子机制提供了新的见解。

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The wheat transcription factor Q functions in gibberellin biosynthesis and signaling and regulates height and spike length

The Q gene is a key domestication gene in wheat (Triticum aestivum) that regulates free-threshing habit, spike morphology, height, and other critical agronomic traits. However, the precise molecular mechanisms underlying its function remain unclear. In this study, we identified a Q allele with a missense mutation (G to A) in the fifth exon of the Q gene, resulting in reduced plant height and spike length. Further investigation revealed that this mutation causes a Gly-229-Ser amino acid substitution, which enhances Q protein stability. Furthermore, we discovered that Q directly binds to the promoter region of Gibberellin 3-oxidase 2 gene (TaGA3ox2) and represses its expression. Moreover, Q interacts with both REDUCED HEIGHT1 (RHT1) and GIBBERELLIN INSENSITIVE 2 (TaGID2), which may disrupt GID2-triggered RHT1 degradation. Collectively, these findings reveal the dual roles of Q in regulating both GA biosynthesis and signaling, providing insights into the molecular mechanisms through which Q modulates plant height and spike length in wheat.

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The Plant Cell

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