GhNAC83 通过调控百合中 ABA 信号和细胞分裂素合成抑制球茎休眠的解除。

GhNAC83 inhibits corm dormancy release by regulating ABA signaling and cytokinin biosynthesis in Gladiolus hybridus.

机构信息

Beijing Key Laboratory of Development and Quality Control of Ornamental Crops, Department of Ornamental Horticulture and Landscape Architecture, China Agricultural University, Beijing, China.

Department of Biological Sciences, University of Toronto Scarborough, ON, Canada.

出版信息

J Exp Bot. 2019 Feb 20;70(4):1221-1237. doi: 10.1093/jxb/ery428.

DOI:10.1093/jxb/ery428

PMID:30517656

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6382327/

Abstract

Corm dormancy is an important trait for breeding in many bulb flowers, including the most cultivated Gladiolus hybridus. Gladiolus corms are modified underground stems that function as storage organs and remain dormant to survive adverse environmental conditions. Unlike seed dormancy, not much is known about corm dormancy. Here, we characterize the mechanism of corm dormancy release (CDR) in Gladiolus. We identified an important ABA (abscisic acid) signaling regulator, GhPP2C1 (protein phosphatase 2C1), by transcriptome analysis of CDR. GhPP2C1 expression increased during CDR, and silencing of GhPP2C1 expression in dormant cormels delayed CDR. Furthermore, we show that GhPP2C1 expression is directly regulated by GhNAC83, which was identified by yeast one-hybrid library screening. In planta assays show that GhNAC83 is a negative regulator of GhPP2C1, and silencing of GhNAC83 promoted CDR. As expected, silencing of GhNAC83 decreased the ABA level, but also dramatically increased cytokinin (CK; zeatin) content in cormels. Binding assays demonstrate that GhNAC83 associates with the GhIPT (ISOPENTENYLTRANSFERASE) promoter and negatively regulates zeatin biosynthesis. Taken together, our results reveal that GhNAC83 promotes ABA signaling and synthesis, and inhibits CK biosynthesis pathways, thereby inhibiting CDR. These findings demonstrate that GhNAC83 regulates the ABA and CK pathways, and therefore controls corm dormancy.

摘要

球茎休眠是许多鳞茎花卉（包括最栽培的唐菖蒲杂种）繁殖的一个重要特征。唐菖蒲球茎是经过修饰的地下茎，用作储存器官，并保持休眠状态以适应不利的环境条件。与种子休眠不同，人们对球茎休眠知之甚少。在这里，我们描述了唐菖蒲球茎休眠解除（CDR）的机制。我们通过 CDR 的转录组分析鉴定了一个重要的 ABA（脱落酸）信号调节因子 GhPP2C1（蛋白磷酸酶 2C1）。GhPP2C1 表达在 CDR 期间增加，而在休眠的球茎芽中沉默 GhPP2C1 表达会延迟 CDR。此外，我们表明 GhPP2C1 表达受 GhNAC83 的直接调控，GhNAC83 是通过酵母单杂交文库筛选鉴定的。体内测定表明，GhNAC83 是 GhPP2C1 的负调控因子，沉默 GhNAC83 促进 CDR。正如预期的那样，沉默 GhNAC83 降低了 ABA 水平，但也极大地增加了球茎芽中的细胞分裂素（CK；玉米素）含量。结合测定表明，GhNAC83 与 GhIPT（ISOPENTENYLTRANSFERASE）启动子结合并负调控玉米素生物合成。总之，我们的结果表明，GhNAC83 促进 ABA 信号转导和合成，并抑制 CK 生物合成途径，从而抑制 CDR。这些发现表明，GhNAC83 调节 ABA 和 CK 途径，因此控制球茎休眠。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3585/6382327/e99567c31cf7/ery42801.jpg

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GhNAC83 通过调控百合中 ABA 信号和细胞分裂素合成抑制球茎休眠的解除。

GhNAC83 inhibits corm dormancy release by regulating ABA signaling and cytokinin biosynthesis in Gladiolus hybridus.

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