Flavonols improve tomato pollen thermotolerance during germination and tube elongation by maintaining reactive oxygen species homeostasis.

IF 10 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Plant Cell Pub Date : 2024-10-03 DOI:10.1093/plcell/koae222

Anthony E Postiglione, Allison M Delange, Mohammad Foteh Ali, Eric Y Wang, Maarten Houben, Stacy L Hahn, Maleana G Khoury, Colleen M Roark, Molly Davis, Robert W Reid, James B Pease, Ann E Loraine, Gloria K Muday

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Abstract

Elevated temperatures impair pollen performance and reproductive success, resulting in lower crop yields. The tomato (Solanum lycopersicum) anthocyanin reduced (are) mutant harbors a mutation in FLAVANONE 3-HYDROXYLASE (F3H), resulting in impaired flavonol antioxidant biosynthesis. The are mutant has reduced pollen performance and seed set relative to the VF36 parental line, phenotypes that are accentuated at elevated temperatures. Transformation of are with the wild-type F3H gene, or chemical complementation with flavonols, prevented temperature-dependent reactive oxygen species (ROS) accumulation in pollen and restored the reduced viability, germination, and tube elongation of are to VF36 levels. Overexpression of F3H in VF36 prevented temperature-driven ROS increases and impaired pollen performance, revealing that flavonol biosynthesis promotes thermotolerance. Although stigmas of are had reduced flavonol and elevated ROS levels, the growth of are pollen tubes was similarly impaired in both are and VF36 pistils. RNA-seq was performed at optimal and stress temperatures in are, VF36, and the F3H overexpression line at multiple timepoints across pollen tube elongation. The number of differentially expressed genes increased over time under elevated temperatures in all genotypes, with the greatest number in are. These findings suggest potential agricultural interventions to combat the negative effects of heat-induced ROS in pollen that lead to reproductive failure.

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黄酮醇通过维持 ROS 的平衡来提高番茄花粉在萌芽和花管伸长过程中的耐热性。

温度升高会损害花粉性能和繁殖成功率，导致作物产量降低。番茄（Solanum lycopersicum）花青素减少（are）突变体中的黄酮 3-羟基化酶（F3H）发生突变，导致黄酮醇抗氧化剂生物合成受损。与 VF36 亲本品系相比，are 突变体的花粉性能和结实率降低，这种表型在温度升高时更为明显。用野生型 F3H 基因转化 are 或用黄酮醇进行化学互补，可防止花粉中依赖温度的活性氧（ROS）积累，并将活力、发芽率和花粉管伸长率降低的 are 恢复到 VF36 的水平。在VF36中过表达F3H可防止温度驱动的ROS增加和花粉性能受损，揭示了黄酮醇的生物合成促进了耐热性。虽然雌花柱头的黄酮醇水平降低，ROS水平升高，但在雌花和VF36雌蕊中，雌花花粉管的生长同样受到影响。在花粉管伸长过程中的多个时间点，在最适温度和胁迫温度下对are、VF36和F3H过表达系进行了RNA-seq分析。在温度升高的情况下，所有基因型的差异表达基因数量都随着时间的推移而增加，其中are的差异表达基因数量最多。这些研究结果表明，农业干预措施有可能消除花粉中由高温诱导的 ROS 导致生殖失败的负面影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Plant Cell 生物-生化与分子生物学

CiteScore

16.90

自引率

5.20%

发文量

337

审稿时长

2.4 months

期刊介绍： Title: Plant Cell Publisher: Published monthly by the American Society of Plant Biologists (ASPB) Produced by Sheridan Journal Services, Waterbury, VT History and Impact: Established in 1989 Within three years of publication, ranked first in impact among journals in plant sciences Maintains high standard of excellence Scope: Publishes novel research of special significance in plant biology Focus areas include cellular biology, molecular biology, biochemistry, genetics, development, and evolution Primary criteria: articles provide new insight of broad interest to plant biologists and are suitable for a wide audience Tenets: Publish the most exciting, cutting-edge research in plant cellular and molecular biology Provide rapid turnaround time for reviewing and publishing research papers Ensure highest quality reproduction of data Feature interactive format for commentaries, opinion pieces, and exchange of information in review articles, meeting reports, and insightful overviews.