RNA Secondary Structure Modulates FMRP’s Bi-Functional Role in the MicroRNA Pathway

机译：RNA二级结构调节MicroRNA途径中FMRP的双重功能

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MicroRNAs act by post-transcriptionally regulating the gene expression of 30%–60% of mammalian genomes. MicroRNAs are key regulators in all cellular processes, though the mechanism by which the cell activates or represses microRNA-mediated translational regulation is poorly understood. In this review, we discuss the RNA binding protein Fragile X Mental Retardation Protein (FMRP) and its role in microRNA-mediated translational regulation. Historically, FMRP is known to function as a translational suppressor. However, emerging data suggests that FMRP has both an agonistic and antagonistic role in regulating microRNA-mediated translational suppression. This bi-functional role is dependent on FMRP’s interaction with the RNA helicase Moloney leukemia virus 10 (MOV10), which modifies the structural landscape of bound mRNA, therefore facilitating or inhibiting its association with the RNA-Induced Silencing Complex.

机译：MicroRNA通过转录后调控哺乳动物基因组30％–60％的基因表达来发挥作用。尽管对细胞激活或抑制microRNA介导的翻译调控的机制了解甚少，但MicroRNA是所有细胞过程中的关键调控因子。在这篇综述中，我们讨论了RNA结合蛋白脆性X智力低下蛋白（FMRP）及其在microRNA介导的翻译调控中的作用。从历史上看，FMRP可以充当平移抑制器。但是，新出现的数据表明，FMRP在调节microRNA介导的翻译抑制中具有激动作用和拮抗作用。这种双重功能取决于FMRP与RNA解旋酶莫洛尼白血病病毒10（MOV10）的相互作用，后者可改变结合的mRNA的结构，从而促进或抑制其与RNA诱导的沉默复合物的缔合。

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期刊名称 International Journal of Molecular Sciences
作者
Phillip Kenny; Stephanie Ceman;
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作者单位

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年(卷),期 2016(17),6
年度 2016
页码 985
总页数 13
原文格式 PDF
正文语种
中图分类分子生物学;
关键词
FMRP G-Quadruplex microRNA MOV10 RNA binding proteins secondary structure;

机译：FMRP;G四联体;microRNA;MOV10;RNA结合蛋白;二级结构;

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专利

1. RNA Secondary Structure Modulates FMRP’s Bi-Functional Role in the MicroRNA Pathway [J] . Phillip Kenny, Stephanie Ceman International Journal of Molecular Sciences . 2016,第6期

机译：RNA二级结构调节FMRP在MicroRNA途径中的双重功能
2. LncRNA ANRIL promotes angiogenesis and thrombosis by modulating microRNA-99a and microRNA-449a in the autophagy pathway [J] . Rong Zeng, Xiao-Jun Song, Chang-Wei Liu, American Journal of Translational Research . 2019,第12期

机译：LNCRNA AnRil通过调节自噬途径中的MicroRNA-99A和MicroRNA-449A来促进血管生成和血栓形成
3. MicroRNA-34a modulates the Notch signaling pathway in mice with congenital heart disease and its role in heart development [J] . Kai-Hong Wu, Qian-Ru Xiao, Yu Yang, Journal of Molecular and Cellular Cardiology . 2018,第期

机译：MicroRNA-34A调节与先天性心脏病的小鼠中的陷波信号通路及其在心脏发育中的作用
4. Identifying Transcription Factors and microRNAs as Key Regulators of Pathways Using Bayesian Inference on Known Pathway Structures [C] . Roqueiro Damian, Huang Lei, Dai Yang 2011 IEEE International Conference on Bioinformatics and Biomedicine . 2011

机译：使用贝叶斯推断已知途径结构，鉴定转录因子和微小RNA作为途径的关键调控因子
5. MicroRNA pathways modulate aging and neurodegenerative diseases. [D] . Liu, Nan. 2009

机译：MicroRNA途径可调节衰老和神经退行性疾病。
6. Discovery of Novel Human Breast Cancer MicroRNAs from Deep SequencingData by Analysis of Pri-MicroRNA Secondary Structures [O] . Seongho Ryu, Natasha Joshi, Kevin McDonnell, 2009

机译：从深度测序中发现新型人类乳腺癌MicroRNA。通过Pri-MicroRNA二级结构分析获得数据
7. RNA Secondary Structure Modulates FMRP’s Bi-Functional Role in the MicroRNA Pathway [O] . Phillip Kenny, Stephanie Ceman 2016

机译：RNa二级结构调节FmRp在microRNa途径中的双功能作用

RNA Secondary Structure Modulates FMRP’s Bi-Functional Role in the MicroRNA Pathway

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