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TaHSFA6e 的可变剪接调节了热激蛋白介导的小麦对热胁迫的翻译调控。

Alternative splicing of TaHSFA6e modulates heat shock protein-mediated translational regulation in response to heat stress in wheat.

机构信息

Frontiers Science Center for Molecular Design Breeding, Key Laboratory of Crop Heterosis Utilization (MOE), Beijing Key Laboratory of Crop Genetic Improvement, China Agricultural University, Beijing, 100193, China.

Qingdao Agricultural University, Qingdao, 266109, China.

出版信息

New Phytol. 2023 Sep;239(6):2235-2247. doi: 10.1111/nph.19100. Epub 2023 Jul 4.

DOI:10.1111/nph.19100
PMID:37403528
Abstract

Heat stress greatly threatens crop production. Plants have evolved multiple adaptive mechanisms, including alternative splicing, that allow them to withstand this stress. However, how alternative splicing contributes to heat stress responses in wheat (Triticum aestivum) is unclear. We reveal that the heat shock transcription factor gene TaHSFA6e is alternatively spliced in response to heat stress. TaHSFA6e generates two major functional transcripts: TaHSFA6e-II and TaHSFA6e-III. TaHSFA6e-III enhances the transcriptional activity of three downstream heat shock protein 70 (TaHSP70) genes to a greater extent than does TaHSFA6e-II. Further investigation reveals that the enhanced transcriptional activity of TaHSFA6e-III is due to a 14-amino acid peptide at its C-terminus, which arises from alternative splicing and is predicted to form an amphipathic helix. Results show that knockout of TaHSFA6e or TaHSP70s increases heat sensitivity in wheat. Moreover, TaHSP70s are localized in stress granule following exposure to heat stress and are involved in regulating stress granule disassembly and translation re-initiation upon stress relief. Polysome profiling analysis confirms that the translational efficiency of stress granule stored mRNAs is lower at the recovery stage in Tahsp70s mutants than in the wild types. Our finding provides insight into the molecular mechanisms by which alternative splicing improves the thermotolerance in wheat.

摘要

热应激极大地威胁着作物的生产。植物已经进化出多种适应机制,包括选择性剪接,使它们能够承受这种应激。然而,选择性剪接如何促进小麦(Triticum aestivum)对热应激的响应尚不清楚。我们揭示了热激转录因子基因 TaHSFA6e 响应热应激时发生选择性剪接。TaHSFA6e 产生两种主要的功能性转录本:TaHSFA6e-II 和 TaHSFA6e-III。TaHSFA6e-III 比 TaHSFA6e-II 更能增强三个下游热休克蛋白 70(TaHSP70)基因的转录活性。进一步的研究表明,TaHSFA6e-III 的增强转录活性是由于其 C 末端的一个 14 个氨基酸的肽段,该肽段来自选择性剪接,预测形成一个两亲性螺旋。结果表明,敲除 TaHSFA6e 或 TaHSP70s 会增加小麦的热敏感性。此外,TaHSP70s 在暴露于热应激后定位于应激颗粒中,并参与调节应激颗粒的解体和翻译重新起始。多核糖体谱分析证实,在 Tahsp70s 突变体中,应激颗粒储存的 mRNA 在恢复阶段的翻译效率低于野生型。我们的发现为选择性剪接如何提高小麦的耐热性提供了分子机制方面的见解。

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