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通过聚合酶每秒设计和表征三端转录装置。

Design and characterization of a three-terminal transcriptional device through polymerase per second.

机构信息

Department of Mechanical Engineering, University of Michigan, Ann Arbor, MI 48109, USA.

出版信息

IEEE Trans Nanobioscience. 2009 Sep;8(3):281-9. doi: 10.1109/TNB.2009.2028687.

Abstract

In this paper, we provide an in silico input-output characterization of a three-terminal transcriptional device employing polymerase per second (PoPS) as input and output. The device is assembled from well-characterized parts of the bacteriophage lambda switch transcriptional circuit. We draw the analogy between voltage and protein concentration and between current and PoPS to demonstrate that the characteristics of the three-terminal transcriptional device are qualitatively similar to those of a bipolar junction transistor (BJT). In particular, as it occurs in a BJT, the device can be tuned to operate either as a linear amplifier or as a switch. When the device operates as a linear amplifier, gains of twofolds can be obtained, which are considerably smaller than those obtained in a BJT (in which 100-fold amplification gains can be reached). This fact suggests that the parts extracted from natural transcriptional systems may be naturally designed mostly to process and store information as opposed to amplify signals.

摘要

在本文中,我们提供了一个使用聚合酶每秒(PoPS)作为输入和输出的三端转录设备的计算机输入-输出特性描述。该设备由噬菌体 lambda 开关转录回路的经过充分表征的部分组装而成。我们将电压和蛋白质浓度之间的类比以及电流和 PoPS 之间的类比,以证明三端转录设备的特性在质量上与双极结晶体管(BJT)的特性相似。特别是,正如在 BJT 中发生的那样,该设备可以调谐为线性放大器或开关操作。当设备作为线性放大器运行时,可以获得两倍的增益,这比在 BJT 中获得的增益(在 BJT 中可以达到 100 倍的放大增益)小得多。这一事实表明,从自然转录系统中提取的部分可能主要是为了处理和存储信息,而不是放大信号。

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