Design of a translational repression based RNA switch in mammalian cells

机译：哺乳动物细胞中基于翻译抑制的RNA开关的设计

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摘要

Given the importance of molecular switches for the construction of artificial gene circuits, we developed a novel genetically encoded translational repression based switch that incorporates two copies of bovine immunodeficiency virus (BIV) TAR-based RNA hairpins in the 5'-untranslated region (UTR). We observed a 7-fold decrease in translational efficiency for the translational repression switch in the presence of BIV Tat ligand. We further characterized the effect of increasing amounts of BIV Tat peptide on the translational efficiency of the repression switch.

机译：考虑到分子开关对于构建人工基因电路的重要性，我们开发了一种基于基因编码的新的基于翻译抑制的开关，该开关在5'-非翻译区（UTR）中掺入了两份基于牛免疫缺陷病毒（BIV）TAR的RNA发夹。。我们观察到在BIV Tat配体的存在下，翻译抑制开关的翻译效率降低了7倍。我们进一步表征了增加数量的BIV Tat肽对阻抑开关的翻译效率的影响。

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来源
《2014 40th Annual Northeast Bioengineering Conference》|2014年|1-2|共2页
会议地点 Boston MA(US)
作者
Sudrik C.; Arha M.; Jicong Cao; Kane R.S.; Schaffer D.V.;
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作者单位

Dept. of Chem. Biol. Eng., Rensselaer Polytech. Inst., Troy, NY, USA;

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会议组织
原文格式 PDF
正文语种 eng
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关键词
RNA; cellular biophysics; genetics; molecular biophysics; proteins; 5'-untranslated region; 7-fold decrease; BIV Tat ligand; BIV Tat peptide; artificial gene circuit construction; bovine immunodeficiency virus TAR-based RNA hairpins; genetically encoded translational repression based switch; mammalian cells; molecular switches; translational efficiency; translational repression based RNA switch; translational repression switch; Bovine; Fluorescence; Peptides; Proteins; RNA; Switches; Switching circuits; BIV Tat; RNA swi;

机译：RNA;细胞生物物理学;遗传学;分子生物物理学;蛋白质; 5'-非翻译区;减少7倍; BIV Tat配体; BIV Tat肽;人工基因电路构建;牛免疫缺陷病毒TAR为基础的RNA发夹;基于基因编码的翻译抑制开关;哺乳动物细胞;分子开关;翻译效率;基于翻译抑制的RNA开关;翻译抑制开关;牛;荧光;肽;蛋白质; RNA;开关;开关电路; BIV Tat; RNA swi;

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专利

1. 短双链RNA特异性抑制哺乳动物细胞中绿色荧光蛋白基因表达 [J] . 黄宇琛, 李江, 谭琛, 癌症（英文版） . 2002,第007期
2. Let-7 microRNA-mediated mRNA deadenylation and translational repression in a mammalian cell-free system. [J] . Wakiyama M, Takimoto K, Ohara O, Genes and Development: a Journal Devoted to the Molecular Analysis of Gene Expression in Eukaryotes, Prokaryotes, and Viruses . 2007,第15期

机译：Let-7 microRNA介导的mRNA腺苷酸化和翻译抑制在哺乳动物无细胞系统中。
3. Translational repression using BIV Tat peptide-TAR RNA interaction in mammalian cells [J] . Chaitanya Sudrik, Manish Arha, Jicong Cao, Chemical Communications . 2013,第67期

机译：使用BIV Tat肽-TAR RNA相互作用在哺乳动物细胞中进行翻译抑制
4. Synergetic regulation of translational reading-frame switch by ligand-responsive RNAs in mammalian cells [J] . Hsu Hsiu-Ting, Lin Ya-Hui, Chang Kung-Yao Nucleic Acids Research . 2014,第22期

机译：哺乳动物细胞配体响应RNA的翻译读数框开关的协同调节
5. (125e) A Microrna Based Synthetic Network as Stable Expression Unit in Mammalian Cells [C] . Leonidas Bleris1, Zhen Xie1, Eduardo Sontag2 and Yaakov Benenson American Institute of Chemical Engineers annual meeting . 2010

机译：（125E）基于MicroRNA的合成网络作为哺乳动物细胞中的稳定表达单位
6. Design strategies for molecular switches in mammalian cells. [D] . Sudrik, Chaitanya Mahesh. 2014

机译：哺乳动物细胞中分子开关的设计策略。
7. Spatiotemporal Uncoupling of MicroRNA-Mediated Translational Repression and Target RNA Degradation Controls MicroRNP Recycling in Mammalian Cells [O] . Mainak Bose, Bahnisikha Barman, Avijit Goswami, 2017

机译：MicroRNA介导的翻译抑制和目标RNA降解的时空解耦控制哺乳动物细胞中的MicroRNP回收。
8. Spatiotemporal Uncoupling of MicroRNA-Mediated Translational Repression and Target RNA Degradation Controls MicroRNP Recycling in Mammalian Cells [O] . Mainak Bose, Bahnisikha Barman, Avijit Goswami, 2017

机译：Microrna介导的翻译抑制和靶RNA降解对哺乳动物细胞中的MicroRNP再循环的时空脱臼

Design of a translational repression based RNA switch in mammalian cells

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