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在“孔中孔”装置中通过生物信号放大进行蓖麻毒素检测。

Ricin detection by biological signal amplification in a well-in-a-well device.

作者信息

Mei Qian, Fredrickson Carl K, Lian Wei, Jin Shouguang, Fan Z Hugh

机构信息

Department of Mechanical and Aerospace Engineering, University of Florida, P.O. Box 116250, Gainesville, Florida 32611, USA.

出版信息

Anal Chem. 2006 Nov 15;78(22):7659-64. doi: 10.1021/ac0610006.

Abstract

This paper presents a ricin detection method based on ricin's inhibitory effects on protein synthesis. Biological synthesis (expression) of a protein includes the steps of gene transcription (DNA --> RNA) and protein translation (RNA --> proteins); these reactions can be coupled into a one-step operation and carried out in a cell-free medium. Ricin is known to inhibit protein synthesis by interacting with 28S ribosome RNA; the inhibitory effect is exploited as the sensing mechanism in this work. For each copy of DNA, thousands of copies of proteins can be produced. As a result, the inhibitory effects of ricin are amplified, leading to a significantly enhanced detection signal (the difference between the positive control and samples). An array of protein expression units is developed to accommodate positive/negative controls and multiple samples. The array device contains a solution without any reagent captured on a solid surface, offering flexibility without comprising the activities of biomolecules. The miniaturized well-in-a-well design possesses a mechanism to supply nutrients continuously and remove byproducts, leading to higher protein expression yields and thus larger detection signals (lower detection limit) when ricin is present. We demonstrate the production of green fluorescent protein and luciferase in the device. A calibration curve has been obtained between the luciferase expression yield and the ricin concentration, showing a detection limit of 0.01 nM (0.3 ng/mL) ricin. The nested-well device is also used for measuring the toxicity level of ricin after physical or chemical treatment.

摘要

本文提出了一种基于蓖麻毒素对蛋白质合成抑制作用的检测方法。蛋白质的生物合成(表达)包括基因转录(DNA→RNA)和蛋白质翻译(RNA→蛋白质)步骤;这些反应可以耦合为一步操作,并在无细胞培养基中进行。已知蓖麻毒素通过与28S核糖体RNA相互作用来抑制蛋白质合成;在本研究中,利用这种抑制作用作为传感机制。对于每一份DNA,可以产生数千份蛋白质。因此,蓖麻毒素的抑制作用被放大,导致检测信号显著增强(阳性对照与样品之间的差异)。开发了一系列蛋白质表达单元以容纳阳性/阴性对照和多个样品。该阵列装置包含捕获在固体表面上的不含任何试剂的溶液,在不影响生物分子活性的情况下提供了灵活性。微型的“井中井”设计具有持续供应营养物质和去除副产物的机制,当存在蓖麻毒素时,可提高蛋白质表达产量,从而获得更大的检测信号(更低的检测限)。我们展示了在该装置中绿色荧光蛋白和荧光素酶的产生。获得了荧光素酶表达产量与蓖麻毒素浓度之间的校准曲线,显示蓖麻毒素的检测限为0.01 nM(0.3 ng/mL)。“嵌套井”装置还用于测量物理或化学处理后蓖麻毒素的毒性水平。

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