Institute of Hybrid Wheat, Beijing Academy of Agricultural and Forestry Sciences, Beijing 100097, China.
Int J Mol Sci. 2024 Nov 14;25(22):12230. doi: 10.3390/ijms252212230.
High-temperature (HT) stress frequently affects the early and middle stages of grain filling in hybrid seed production regions. Photo-thermo-sensitive male-sterile (PTMS) wheat lines, which play a critical role as female parents in hybrid seed production, face challenges under HT conditions. However, the mechanisms governing grain filling in PTMS lines under HT stress remain poorly understood. This study used the BS253 line to investigate the effects of HT on grain filling, primarily focusing on the transition from sucrose unloading to starch synthesis. The findings indicated that HT significantly reduced the grain starch content and weight by 7.65% and 36.35% at maturity, respectively. Further analysis revealed that the expression levels of and in grains initially increased after HT stress, paralleling the rise in sucrose content during the same period. The activities of ADP-glucose pyrophosphorylase, UDP-glucose pyrophosphorylase, granule-bound starch synthase, and soluble starch synthase were markedly decreased, indicating that impaired starch synthesis was a key factor limiting grain filling immediately after HT exposure. A total of 41 key regulatory genes involved in sucrose-to-starch metabolism were identified, with HT significantly reducing the expression of genes associated with pathways from sucrose unloading to starch synthesis during the middle and late stages post-HT. Based on the observed ultrastructural changes in the abdominal phloem and sucrose transporter expression levels under HT, we concluded that limited sucrose supply, degradation, and inhibition of starch synthesis collectively constrained grain filling during these stages. Additionally, 11 heat shock proteins and two catalase genes were identified and significantly upregulated during the initial phase post-HT, suggesting their potential role in enhancing sucrose supply at this critical time. More importantly, seven key genes involved in the sucrose-to-starch pathway were identified by weighted gene co-expression network analysis (), which provides target genes for their functional research for starch synthase. These findings provide a comprehensive understanding of how HT limits grain filling, identify several genes involved in the sucrose-to-starch pathway, and offer a novel perspective for future research on HT-restricted grain filling across the entire process from sucrose unloading to starch synthesis in developing grains.
高温(HT)胁迫频繁影响杂种种子生产地区籽粒灌浆的早期和中期。在杂种种子生产中作为母本发挥关键作用的光温敏雄性不育(PTMS)小麦品系在 HT 条件下面临挑战。然而,在 HT 胁迫下,PTMS 系籽粒灌浆的调控机制仍知之甚少。本研究利用 BS253 品系研究了 HT 对籽粒灌浆的影响,主要关注蔗糖卸载向淀粉合成的转变。研究结果表明,HT 分别在成熟时使籽粒淀粉含量和重量显著降低了 7.65%和 36.35%。进一步分析表明,HT 胁迫后,粒中 和 的表达水平最初增加,与同期蔗糖含量的升高平行。ADP-葡萄糖焦磷酸化酶、UDP-葡萄糖焦磷酸化酶、颗粒结合型淀粉合酶和可溶性淀粉合酶的活性显著降低,表明淀粉合成受损是 HT 暴露后立即限制籽粒灌浆的关键因素。共鉴定到 41 个参与蔗糖向淀粉代谢的关键调控基因,HT 显著降低了 HT 后中期和晚期蔗糖卸载向淀粉合成途径相关基因的表达。基于 HT 下腹部韧皮部的超微结构变化和蔗糖转运体表达水平,我们得出结论,在这些阶段,蔗糖供应有限、降解和淀粉合成受到抑制共同限制了籽粒灌浆。此外,在 HT 后初期鉴定到 11 个热激蛋白和两个过氧化氢酶基因显著上调,表明它们在这一关键时期可能增强蔗糖供应。更重要的是,通过加权基因共表达网络分析(WGCNA)鉴定到 7 个参与蔗糖向淀粉途径的关键基因,为淀粉合酶的功能研究提供了目标基因。这些发现全面了解了 HT 如何限制籽粒灌浆,鉴定了参与蔗糖向淀粉途径的几个基因,并为未来研究从蔗糖卸载到发育籽粒中淀粉合成整个过程中 HT 限制的籽粒灌浆提供了新视角。
