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Chemical-Induced Read-Through at Premature Termination Codons Determined by a Rapid Dual-Fluorescence System Based on S. cerevisiae

机译：基于酿酒酵母的快速双荧光系统测定的化学诱导过早终止密码子通读

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摘要

Nonsense mutations generate in-frame stop codons in mRNA leading to a premature arrest of translation. Functional consequences of premature termination codons (PTCs) include the synthesis of truncated proteins with loss of protein function causing severe inherited or acquired diseases. A therapeutic approach has been recently developed that is based on the use of chemical agents with the ability to suppress PTCs (read-through) restoring the synthesis of a functional full-length protein. Research interest for compounds able to induce read-through requires an efficient high throughput large scale screening system. We present a rapid, sensitive and quantitative method based on a dual-fluorescence reporter expressed in the yeast Saccharomyces cerevisiae to monitor and quantitate read-through at PTCs. We have shown that our novel system works equally well in detecting read-through at all three PTCs UGA, UAG and UAA.

机译：无意义的突变会在mRNA中产生框内终止密码子，从而导致翻译过早停止。提前终止密码子（PTC）的功能后果包括合成截短的蛋白质，蛋白质功能丧失，导致严重的遗传性或获得性疾病。最近已经开发出一种治疗方法，该方法基于使用具有抑制PTC（通读）功能的化学试剂，从而恢复了功能性全长蛋白质的合成。对于能够诱导通读的化合物的研究兴趣需要高效的高通量大规模筛选系统。我们提出了一种快速，灵敏和定量的方法，该方法基于在酿酒酵母中表达的双重荧光报告基因来监测和定量PTC的通读。我们已经表明，我们的新型系统在检测所有三个PTC UGA，UAG和UAA的通读方面同样有效。

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期刊名称 other
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Emiliano Altamura; Monica Borgatti; Alessia Finotti; Jessica Gasparello; Roberto Gambari; Mariangela Spinelli; Rosa Castaldo; Nicola Altamura;
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年(卷),期 -1(11),4
年度 -1
页码 e0154260
总页数 18
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专利

1. Endogenous read-through of a UGA termination codon in a Saccharomyces cerevisiae cell-free system: evidence for involvement of both a mitochondrial and a nuclear tRNA. [J] . M F Tuite, C S McLaughlin Molecular and Cellular Biology . 1982,第5期

机译：啤酒酵母无细胞系统中UGA终止密码子的内源性通读：线粒体和核tRNA参与的证据。
2. The effect of premature termination codon mutations on CFTR mRNA abundance in human nasal epithelium and intestinal organoids: a basis for read-through therapies in cystic fibrosis [J] . Clarke Luka A., Awatade Nikhil T., Felicio Veronica M., Human mutation . 2019,第3期

机译：早期终止密码子突变对人鼻性上皮和肠道细胞体CFTR mRNA丰度的影响：囊性纤维化术术的基础
3. AN AMPLIFIER-ENHANCED HIGH-THROUGHPUT SCREEN TO IDENTIFY SMALL MOLECULES WITH READ-THROUGH ACTIVITY ON PREMATURE TERMINATION CODON MUTATIONS IN CFTR [J] . Dukovski D., Horan J., Aghamohammadzadeh S., Pediatric Pulmonology . 2018,第Suppla2期

机译：放大器增强的高吞吐量屏幕，以识别CFTR中过早终止密码子突变的读取活动的小分子
4. Characterization of amino acids inserted at premature termination codons (PTCs) via nonsense suppression reveals novel base pairing of near-cognate tRNAs. [C] . John D. Leszyk, Bijoyita Roy, David Mangus, ASMS Conference on Mass Spectrometry and Allied Topics . 2015

机译：通过非阵容抑制插入在过早终止密码子（PTCS）的氨基酸的表征揭示了近同源TrNA的新碱基配对。
5. Caenorhabditis elegans SMG-2 selectively marks mRNAs containing premature translation termination codons. [D] . Johns, Lisa. 2010

机译：秀丽隐杆线虫SMG-2选择性标记含有过早翻译终止密码子的mRNA。
6. Endogenous read-through of a UGA termination codon in a Saccharomyces cerevisiae cell-free system: evidence for involvement of both a mitochondrial and a nuclear tRNA. [O] . M F Tuite, C S McLaughlin 1982

机译：酿酒酵母无细胞系统中UGA终止密码子的内源性通读：线粒体和核tRNA参与的证据。
7. Chemical-Induced Read-Through at Premature Termination Codons Determined by a Rapid Dual-Fluorescence System Based on S. cerevisiae. [O] . Emiliano Altamura, Monica Borgatti, Alessia Finotti, 2016

机译：化学诱导的早熟终止密码子通过基于酿酒酵母的快速双荧光系统确定。

Chemical-Induced Read-Through at Premature Termination Codons Determined by a Rapid Dual-Fluorescence System Based on S. cerevisiae

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