What question did this study set out to answer?

The study aims to explore the role of the DHD9 gene in regulating the heading date and its impact on rice yield.

April 10, 2026Open Access

Analysis of the Signaling Pathway Regulated by the Rice Mutant Gene DHD9 in Controlling Heading Date

Key Points

The study aims to explore the role of the DHD9 gene in regulating the heading date and its impact on rice yield.
Utilized delayed heading date 9 (dhd9) rice mutant and wild type (WT) for analysis.
Examined phenotypic changes and expression levels of key genes related to heading date.
Assessed interactions between DHD9 and biological clock systems.
DHD9 mutant exhibited a delayed heading date by approximately 9 days under natural conditions and 26 days under short-day conditions.
Mutant showed significant increases in plant height, panicle length, and grains per panicle compared to WT.
Gene expression analysis revealed downregulation of Ehd1-Hd3a/RFT1 pathway genes in dhd9 compared to WT, affecting heading date control.

Abstract

【目的】抽穗期作为影响水稻产量和适应性的关键农艺性状，其调控网络非常复杂，鉴定水稻抽穗期基因，对解析水稻抽穗期的分子调控机制具有重要意义。【方法】以抽穗期延迟水稻突变体delayed heading date 9（dhd9）及其野生型（Wild type，WT）为实验材料，从表型、抽穗期关键基因的表达变化以及与生物钟系统之间的关系，初步探究DHD9调控抽穗期的生物学功能。【结果】与WT相比，突变体dhd9的抽穗期在自然长日照条件下延迟9天左右，而人工短日照条件下延迟26天左右。除有效穗数显著降低外，突变体dhd9株高、穗长、一级枝梗数、二级枝梗数、每穗粒数、结实率及单株产量较WT均显著增加。长、短日照条件下，成花素基因Hd3a、RFT1及其下游基因OsMADS14和上游调控因子Ehd1，在dhd9中的表达水平相较于WT均显著下调，表明DHD9可能通过Ehd1-Hd3a/RFT1开花途径调控抽穗期；此外，参与水稻抽穗期调控的生物钟系统核心基因OsPRR37、OsPRR73、OsELF3、OsCCA1的表达量在dhd9中也发现了显著变化。【结论】DHD9是一个抽穗期和产量的调控因子，通过Ehd1-RFT1/Hd3a信号途径以及影响生物钟系统调控水稻抽穗期，研究结果为DHD9调控水稻抽穗期的分子机制奠定了基础。

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Yin et al. (Sun,) studied this question.

www.synapsesocial.com/papers/69d893eb6c1944d70ce04eb8 — DOI: https://doi.org/10.3724/aauj.2026054

Authors

Jiaojuan Yin

Xiangjin Ren

Xinyu Li

Journals

ACTA AGRICULTURAE UNIVERSITATIS JIANGXIENSIS

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Analysis of the Signaling Pathway Regulated by the Rice Mutant Gene DHD9 in Controlling Heading Date

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Abstract

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Cite this study

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