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Jasmonate-mediated wound signalling promotes plant regeneration.茉莉酸介导的伤口信号促进植物再生。
Nat Plants. 2019 May;5(5):491-497. doi: 10.1038/s41477-019-0408-x. Epub 2019 Apr 22.
2
Mitochondrial function modulates touch signalling in Arabidopsis thaliana.线粒体功能调节拟南芥的触觉信号。
Plant J. 2019 Feb;97(4):623-645. doi: 10.1111/tpj.14183. Epub 2019 Jan 22.
3
The PRIDE database and related tools and resources in 2019: improving support for quantification data.PRIDE 数据库及相关工具和资源在 2019 年的进展:提高定量数据支持。
Nucleic Acids Res. 2019 Jan 8;47(D1):D442-D450. doi: 10.1093/nar/gky1106.
4
Quantitative and functional posttranslational modification proteomics reveals that TREPH1 plays a role in plant touch-delayed bolting.定量和功能翻译后修饰蛋白质组学揭示 TREPH1 在植物触摸延迟抽薹中起作用。
Proc Natl Acad Sci U S A. 2018 Oct 23;115(43):E10265-E10274. doi: 10.1073/pnas.1814006115. Epub 2018 Oct 5.
5
Four IVa bHLH Transcription Factors Are Novel Interactors of FIT and Mediate JA Inhibition of Iron Uptake in Arabidopsis.四个 IVa bHLH 转录因子是 FIT 的新型相互作用因子,并介导 JA 抑制拟南芥铁吸收。
Mol Plant. 2018 Sep 10;11(9):1166-1183. doi: 10.1016/j.molp.2018.06.005. Epub 2018 Jun 28.
6
Plant Hormonomics: Multiple Phytohormone Profiling by Targeted Metabolomics.植物激素组学:通过靶向代谢组学进行多种植物激素分析。
Plant Physiol. 2018 Jun;177(2):476-489. doi: 10.1104/pp.18.00293. Epub 2018 Apr 27.
7
Thigmomorphogenesis.触变形态发生
Curr Biol. 2017 Sep 11;27(17):R863-R864. doi: 10.1016/j.cub.2017.07.008.
8
Triggering a false alarm: wounding mimics prey capture in the carnivorous Venus flytrap (Dionaea muscipula).引发误报:受伤模拟了肉食性捕蝇草(Dionaea muscipula)的猎物捕捉。
New Phytol. 2017 Nov;216(3):927-938. doi: 10.1111/nph.14747. Epub 2017 Aug 29.
9
Architecture and Dynamics of the Jasmonic Acid Gene Regulatory Network.茉莉酸基因调控网络的结构与动态。
Plant Cell. 2017 Sep;29(9):2086-2105. doi: 10.1105/tpc.16.00958. Epub 2017 Aug 21.
10
The bHLH Transcription Factors MYC2, MYC3, and MYC4 Are Required for Jasmonate-Mediated Inhibition of Flowering in Arabidopsis.bHLH转录因子MYC2、MYC3和MYC4是茉莉酸介导的拟南芥开花抑制所必需的。
Mol Plant. 2017 Nov 6;10(11):1461-1464. doi: 10.1016/j.molp.2017.08.007. Epub 2017 Aug 18.

一个依赖 MYC2/MYC3/MYC4 的转录因子网络调控喷水响应基因表达和茉莉酸水平。

A MYC2/MYC3/MYC4-dependent transcription factor network regulates water spray-responsive gene expression and jasmonate levels.

机构信息

Lund University Plant Sciences, Department of Biology, Lund University, 223 62 Lund, Sweden.

Australian Research Council Centre of Excellence in Plant Energy Biology, School of Molecular Sciences, University of Western Australia, Perth, WA 6009, Australia.

出版信息

Proc Natl Acad Sci U S A. 2019 Nov 12;116(46):23345-23356. doi: 10.1073/pnas.1911758116. Epub 2019 Oct 29.

DOI:10.1073/pnas.1911758116
PMID:31662474
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6859355/
Abstract

Mechanical stimuli, such as wind, rain, and touch affect plant development, growth, pest resistance, and ultimately reproductive success. Using water spray to simulate rain, we demonstrate that jasmonic acid (JA) signaling plays a key role in early gene-expression changes, well before it leads to developmental changes in flowering and plant architecture. The JA-activated transcription factors MYC2/MYC3/MYC4 modulate transiently induced expression of 266 genes, most of which peak within 30 min, and control 52% of genes induced >100-fold. Chromatin immunoprecipitation-sequencing analysis indicates that MYC2 dynamically binds >1,300 promoters and -activation assays show that MYC2 activates these promoters. By mining our multiomic datasets, we identified a core MYC2/MYC3/MYC4-dependent "regulon" of 82 genes containing many previously unknown MYC2 targets, including transcription factors and bHLH19 can in turn directly activate the promoter, indicating that MYC2/MYC3/MYC4 initiate a hierarchical network of downstream transcription factors. Finally, we also reveal that rapid water spray-induced accumulation of JA and JA-isoleucine is directly controlled by MYC2/MYC3/MYC4 through a positive amplification loop that regulates JA-biosynthesis genes.

摘要

机械刺激,如风和雨、触摸等,会影响植物的发育、生长、抗虫性,最终影响生殖成功。我们使用水雾来模拟降雨,结果表明茉莉酸(JA)信号转导在早期基因表达变化中起着关键作用,而这些变化早于开花和植物结构的发育变化。JA 激活的转录因子 MYC2/MYC3/MYC4 调节 266 个基因的瞬时诱导表达,其中大多数基因在 30 分钟内达到峰值,并控制了超过 100 倍诱导的 52%的基因。染色质免疫沉淀测序分析表明,MYC2 动态结合超过 1300 个启动子,并且 -激活测定表明 MYC2 可激活这些启动子。通过挖掘我们的多组学数据集,我们鉴定了一个由 82 个基因组成的核心 MYC2/MYC3/MYC4 依赖性“调控子”,其中包含许多以前未知的 MYC2 靶基因,包括转录因子和 bHLH19 可以反过来直接激活启动子,这表明 MYC2/MYC3/MYC4 启动了一个下游转录因子的分层网络。最后,我们还揭示了快速水雾诱导的 JA 和 JA-异亮氨酸的积累直接受 MYC2/MYC3/MYC4 通过正反馈环控制,该环调节 JA 生物合成基因。