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本文引用的文献

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Rice transcriptional repressor OsTIE1 controls anther dehiscence and male sterility by regulating JA biosynthesis.水稻转录抑制子 OsTIE1 通过调控茉莉酸生物合成控制花粉囊开裂和雄性不育。
Plant Cell. 2024 May 1;36(5):1697-1717. doi: 10.1093/plcell/koae028.
2
miR319-TCPs-TGA9/TGA10/ROXY2 regulatory module controls cell fate specification in early anther development in Arabidopsis.miR319-TCPs-TGA9/TGA10/ROXY2调控模块控制拟南芥早期花药发育中的细胞命运决定。
Sci China Life Sci. 2024 Apr;67(4):839-842. doi: 10.1007/s11427-023-2453-1. Epub 2023 Nov 17.
3
RCD1 Promotes Salt Stress Tolerance in by Repressing ANAC017 Activity.RCD1 通过抑制 ANAC017 的活性促进拟南芥的耐盐性。
Int J Mol Sci. 2023 Jun 6;24(12):9793. doi: 10.3390/ijms24129793.
4
RiceTFtarget: A rice transcription factor-target prediction server based on coexpression and machine learning.水稻转录因子靶标预测工具:一个基于共表达和机器学习的水稻转录因子靶标预测服务器。
Plant Physiol. 2023 Aug 31;193(1):190-194. doi: 10.1093/plphys/kiad332.
5
Exploration of Sugar and Starch Metabolic Pathway Crucial for Pollen Fertility in Rice.探索对水稻花粉育性至关重要的糖和淀粉代谢途径。
Int J Mol Sci. 2022 Nov 15;23(22):14091. doi: 10.3390/ijms232214091.
6
Parallel analysis of RNA ends reveals global microRNA-mediated target RNA cleavage in maize.RNA 末端的平行分析揭示了玉米中 miRNA 介导的靶 RNA 切割的全局性。
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7
The novel ZmTCP7 transcription factor targets AGPase-encoding gene to regulate storage starch accumulation in maize.新型ZmTCP7转录因子靶向AGPase编码基因以调控玉米中贮藏淀粉的积累。
Front Plant Sci. 2022 Jul 15;13:943050. doi: 10.3389/fpls.2022.943050. eCollection 2022.
8
OsSWEET11b, a potential sixth leaf blight susceptibility gene involved in sugar transport-dependent male fertility.OsSWEET11b,一个参与糖转运依赖型雄性育性的第六个潜在的叶斑病易感性基因。
New Phytol. 2022 May;234(3):975-989. doi: 10.1111/nph.18054. Epub 2022 Mar 12.
9
OsMADS14 and NF-YB1 cooperate in the direct activation of OsAGPL2 and Waxy during starch synthesis in rice endosperm.在水稻胚乳淀粉合成过程中,OsMADS14和NF-YB1协同直接激活OsAGPL2和蜡质基因。
New Phytol. 2022 Apr;234(1):77-92. doi: 10.1111/nph.17990. Epub 2022 Feb 12.
10
Sporophytic control of anther development and male fertility by glucose-6-phosphate/phosphate translocator 1 (OsGPT1) in rice.葡萄糖-6-磷酸/磷酸转运蛋白 1(OsGPT1)在水稻中对花粉发育和雄性育性的孢子体控制。
J Genet Genomics. 2021 Aug 20;48(8):695-705. doi: 10.1016/j.jgg.2021.04.013. Epub 2021 Jun 7.

水稻微小RNA159-无孢子细胞2模块在花粉发育过程中调节淀粉生物合成并维持雄性育性。

The rice microRNA159-SPOROCYTELESS EAR2 module regulates starch biosynthesis during pollen development and maintains male fertility.

作者信息

Tao Jinyuan, Kong Wenwen, Luo Weigui, Wang Li, Dai Xing, Lin Xiaojing, Dong Haijiao, Yang Xiaoyu, Mo Beixin, Chen Xuemei, Yu Yu

机构信息

State Key Laboratory for Protein and Plant Gene Research, Peking-Tsinghua Joint Center for Life Sciences, Beijing Advanced Center of RNA Biology (BEACON), School of Life Sciences, Peking University, Beijing 100871, China.

School of Life Sciences, Division of Life Sciences and Medicine, University of Science and Technology of China, Hefei 230027, China.

出版信息

Plant Cell. 2024 Dec 23;37(1). doi: 10.1093/plcell/koae324.

DOI:10.1093/plcell/koae324
PMID:39665752
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11684084/
Abstract

Starch is an indispensable energy reserve for pollen and failure of starch biosynthesis in pollen leads to male sterility in flowering crops. Nonetheless, the regulatory mechanisms underlying starch biosynthesis in rice (Oryza sativa) pollen remain unclear. Here, we identified a target of the microRNA OsmiR159, SPOROCYTELESS ETHYLENE-RESPONSIVE ELEMENT BINDING FACTOR-ASSOCIATED AMPHIPHILIC-REPRESSION 2 (OsSPEAR2). OsSPEAR2 is predominantly expressed in mature pollen and OsSPEAR2 possesses transcriptional repressor activity and localizes in the nucleus. Disruption of OsSPEAR2 results in severely shrunken pollen grains and male sterility. OsSPEAR2 interacts with multiple OsTCPs, including OsTCP14. OsTCP14 is a target of OsmiR319 and a knockout mutation in OsTCP14 partially rescues the defective pollen phenotype of Osspear2. In addition, transcriptome analyses revealed significant downregulation of numerous genes associated with carbohydrate metabolism, specifically in Osspear2 anthers, including several genes critical for starch biosynthesis. Moreover, OsTCP14 directly represses the expression of the essential starch biosynthesis gene OsUGP2; however, this repression could be alleviated by OsSPEAR2. Noteworthily, embryophyte-specific SPEAR2 and SPOROCYTELESS were also identified as miR159 targets involved in regulating plant growth and development in Arabidopsis (Arabidopsis thaliana), indicating that the miR159-SPEAR regulatory module may be conserved among embryophytes. Collectively, our findings reveal OsmiR159-OsSPEAR2-OsTCP14-OsUGP2 as a regulatory cascade that modulates starch biosynthesis during pollen development in rice.

摘要

淀粉是花粉不可或缺的能量储备,花粉中淀粉生物合成的失败会导致开花作物雄性不育。然而,水稻花粉中淀粉生物合成的调控机制仍不清楚。在这里,我们鉴定出了微小RNA OsmiR159的一个靶标,即无孢子细胞乙烯响应元件结合因子相关两亲性抑制因子2(OsSPEAR2)。OsSPEAR2主要在成熟花粉中表达,具有转录抑制活性,并定位于细胞核中。OsSPEAR2的破坏导致花粉粒严重萎缩和雄性不育。OsSPEAR2与多个OsTCP相互作用,包括OsTCP14。OsTCP14是OsmiR319的一个靶标,OsTCP14的敲除突变部分挽救了Osspear2有缺陷的花粉表型。此外,转录组分析显示,许多与碳水化合物代谢相关的基因显著下调,特别是在Osspear2花药中,包括几个对淀粉生物合成至关重要的基因。此外,OsTCP14直接抑制必需淀粉生物合成基因OsUGP2的表达;然而,这种抑制作用可以被OsSPEAR2缓解。值得注意的是,在拟南芥中,也鉴定出了参与调节植物生长发育的miR159靶标,即陆地植物特有的SPEAR2和无孢子细胞,这表明miR159-SPEAR调控模块可能在陆地植物中保守。总的来说,我们的研究结果揭示了OsmiR159-OsSPEAR2-OsTCP14-OsUGP2作为一个调控级联,在水稻花粉发育过程中调节淀粉生物合成。