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用于检测无义抑制子与真核生物蛋白质合成机制直接相互作用的新检测方法。

New Assay Measuring Direct Interaction of Nonsense Suppressors with the Eukaryotic Protein Synthesis Machinery.

作者信息

Ng Martin Y, Zhang Haibo, Weil Amy, Singh Vijay, Jamiolkowski Ryan, Baradaran-Heravi Alireza, Roberge Michel, Jacobson Allan, Friesen Westley, Welch Ellen, Goldman Yale E, Cooperman Barry S

机构信息

Department of Chemistry, University of Pennsylvania, Philadelphia, Pennsylvania 19104, United States.

Department of Physiology, Perelman School of Medicine, University of Pennsylvania, Philadelphia, Pennsylvania 19104, United States.

出版信息

ACS Med Chem Lett. 2018 Nov 21;9(12):1285-1291. doi: 10.1021/acsmedchemlett.8b00472. eCollection 2018 Dec 13.

DOI:10.1021/acsmedchemlett.8b00472
PMID:30613341
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6295867/
Abstract

Nonsense suppressors (NonSups) induce "readthrough", i.e., the selection of near cognate tRNAs at premature termination codons and insertion of the corresponding amino acid into nascent polypeptide. Prior readthrough measurements utilized contexts in which NonSups can promote readthrough directly, by binding to one or more of the components of the protein synthesis machinery, or indirectly, by several other mechanisms. Here we utilize a new, highly purified assay to measure exclusively direct nonsense suppressor-induced readthrough. Of 16 NonSups tested, 12 display direct readthrough, with results suggesting that such NonSups act by at least two different mechanisms. In preliminary work we demonstrate the potential of single molecule fluorescence energy transfer measurements to elucidate mechanisms of NonSup-induced direct readthrough, which will aid efforts to identify NonSups having improved clinical efficacy.

摘要

无义抑制因子(NonSups)可诱导“通读”,即:在过早终止密码子处选择近同源tRNA,并将相应氨基酸插入新生多肽中。之前的通读测量使用的实验环境中,无义抑制因子可以通过与蛋白质合成机制的一种或多种组分结合直接促进通读,或者通过其他几种机制间接促进通读。在此,我们使用一种新的、高度纯化的检测方法来专门测量无义抑制因子直接诱导的通读。在测试的16种无义抑制因子中,有12种表现出直接通读,结果表明这些无义抑制因子至少通过两种不同机制发挥作用。在初步工作中,我们展示了单分子荧光能量转移测量在阐明无义抑制因子诱导直接通读机制方面的潜力,这将有助于识别具有更高临床疗效的无义抑制因子。

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