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OPAQUE11 是调控玉米胚乳发育和养分代谢的网络的核心枢纽。

OPAQUE11 Is a Central Hub of the Regulatory Network for Maize Endosperm Development and Nutrient Metabolism.

机构信息

Shanghai Key Laboratory of Bio-Energy Crops, Plant Science Center, School of Life Sciences, Shanghai University, Shanghai 200444, China.

Institute of Biotechnology, Jiangsu Provincial Key Laboratory of Agrobiology, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, China.

出版信息

Plant Cell. 2018 Feb;30(2):375-396. doi: 10.1105/tpc.17.00616. Epub 2018 Feb 7.

DOI:10.1105/tpc.17.00616
PMID:29436476
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5868688/
Abstract

Maize () endosperm is a primary tissue for nutrient storage and is highly differentiated during development. However, the regulatory networks of endosperm development and nutrient metabolism remain largely unknown. Maize () is a classic seed mutant with a small and opaque endosperm showing decreased starch and protein accumulation. We cloned and found that it encodes an endosperm-specific bHLH transcription factor (TF). Loss of function of O11 significantly affected transcription of carbohydrate/amino acid metabolism and stress response genes. Genome-wide binding site analysis revealed 9885 O11 binding sites distributed over 6033 genes. Using chromatin immunoprecipitation sequencing (ChIP-seq) coupled with RNA sequencing (RNA-seq) assays, we identified 259 O11-modulated target genes. O11 was found to directly regulate key TFs in endosperm development (NKD2 and ZmDOF3) and nutrient metabolism (O2 and PBF). Moreover, O11 directly regulates cyPPDKs and multiple carbohydrate metabolic enzymes. O11 is an activator of , suggesting its regulatory function through the MAPK pathway in endosperm development. Many stress-response genes are also direct targets of O11. In addition, 11 O11-interacting proteins were identified, including , which coregulates stress response targets and with O11. Therefore, this study reveals an endosperm regulatory network centered around O11, which coordinates endosperm development, metabolism and stress responses.

摘要

玉米胚乳是营养物质储存的主要组织,在发育过程中高度分化。然而,胚乳发育和养分代谢的调控网络在很大程度上仍然未知。玉米()是一种经典的种子突变体,胚乳小而不透明,淀粉和蛋白质积累减少。我们克隆了并发现它编码一个胚乳特异性 bHLH 转录因子(TF)。O11 的功能丧失显著影响碳水化合物/氨基酸代谢和应激反应基因的转录。全基因组结合位点分析揭示了 9885 个 O11 结合位点分布在 6033 个基因上。使用染色质免疫沉淀测序(ChIP-seq)与 RNA 测序(RNA-seq)联合分析,我们鉴定了 259 个 O11 调节的靶基因。发现 O11 直接调节胚乳发育(NKD2 和 ZmDOF3)和养分代谢(O2 和 PBF)的关键 TF。此外,O11 直接调节 cyPPDKs 和多种碳水化合物代谢酶。O11 是的激活剂,表明其通过 MAPK 途径在胚乳发育中的调节功能。许多应激响应基因也是 O11 的直接靶标。此外,还鉴定了 11 个 O11 相互作用蛋白,包括,它与 O11 共同调节应激反应靶标和。因此,本研究揭示了一个以 O11 为中心的胚乳调控网络,该网络协调胚乳发育、代谢和应激反应。

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本文引用的文献

1
NKD Transcription Factors Are Central Regulators of Maize Endosperm Development.NKD转录因子是玉米胚乳发育的核心调节因子。
Plant Cell. 2016 Dec;28(12):2916-2936. doi: 10.1105/tpc.16.00609. Epub 2016 Nov 28.
2
ZmDof3, a maize endosperm-specific Dof protein gene, regulates starch accumulation and aleurone development in maize endosperm.ZmDof3是一个玉米胚乳特异性Dof蛋白基因,它调控玉米胚乳中的淀粉积累和糊粉层发育。
Plant Mol Biol. 2017 Jan;93(1-2):7-20. doi: 10.1007/s11103-016-0543-y. Epub 2016 Oct 5.
3
Transcriptome Dynamics during Maize Endosperm Development.玉米胚乳发育过程中的转录组动态变化
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Maize endosperm-specific transcription factors O2 and PBF network the regulation of protein and starch synthesis.玉米胚乳特异性转录因子O2和PBF构成蛋白质和淀粉合成调控的网络。
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