利用真核生物无细胞翻译系统的适体酶生物传感器。

Atsushi Ogawa
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引用次数: 0

摘要

我构建了一个新的基于适配体酶的生物传感器系统,用于检测适配体酶的辅助因子,该系统使用无细胞荧光素酶合成小麦胚芽提取物。在该系统中,融合到荧光素酶基因的5'-非翻译区域的适配酶活性可以作为荧光素酶表达检测。在使用小麦无生殖细胞翻译系统翻译apta酵素融合的mRNA时,由于以下三重抑制作用,荧光素酶几乎不表达:(1)5'端三个碱基和(2)5'端双链阻止核糖体与自身mRNA结合;(3)如果核糖体结合,适配体酶中模仿基因的翻译会抑制下游荧光素酶基因的翻译(OFF状态)。相反,在酶辅因子存在的情况下,mRNA中的酶自裂产生无酶的荧光素酶基因,该基因被高效翻译(ON状态)。与先前报道的利用原核翻译系统的生物传感器相比,基于适体酶的生物传感器对茶碱的ON/OFF效率和检测限分别高得多和低得多。
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Aptazyme-based biosensors using a eukaryotic cell-free translation system.

I have constructed a novel aptazyme-based biosensor system for detecting cofactors of the aptazymes using a cell-free luciferase synthesis in wheat germ extract. In this system, the activity of the aptazyme that is fused to a 5'-untranslated region of a luciferase gene can be detected as luciferase expression. In translating the aptazyme-fused mRNA as-is using a wheat germ cell-free translation system, the luciferase is almost not expressed because of the following triple suppression effects: (1) 5'-terminal three bases and (2) 5'-terminal duplex prevent the ribosome from binding to own mRNA; (3) if the ribosome binds, translation of a mimic gene in the aptazyme inhibits that of the downstream luciferase gene (OFF state). In contrast, in the presence of the aptazyme cofactor, the aptazyme in mRNA is self-cleaved to produce an aptazyme-free luciferase gene, which is translated efficiently (ON state). The ON/OFF efficiency and the detection limit of the aptazyme-based biosensor for theophylline are much higher and lower, respectively, compared to those of previously-reported one that utilizes a prokaryotic translation system.

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