Visualizing Bacterial Gene Regulation with an Interactive Computer Program: The Trp Operon

2015 15th International Conference on Computational Science and Its Applications Pub Date : 2015-06-22 DOI:10.1109/ICCSA.2015.12

Xiaoli Yang, Yifan Cai, C. Tseng

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Abstract

The paper describes an interactive computer program for visualizing bacterial gene regulation: the trp operon. The computer program was implemented based on our recently developed Gene Act framework. The advantages of this computer framework are 1) accelerating the development process and 2) simplifying the program development for researchers who wish to pack and distribute their work with interactive programs. The Gene Act frame work has been successfully used as a tutorial tool for learning the lac operon, the classical example of gene regulation in bacteria. The trp operon described here is as second example for such an application. Unlike the lac operon, which controls the breakdown of the sugar lactose, the trp operon is responsible for the synthesis of the amino acid tryptophan. As it is often challenging for beginners to understand the control mechanisms of the trp operon, especially the attenuation system, we hope that this interactive computer program may facilitate and improve learning by illustrating the process with rich text, images, animations, and interactive steps.

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用交互式计算机程序可视化细菌基因调控:色氨酸操纵子

本文描述了一个交互式计算机程序，用于可视化细菌基因调控:色氨酸操纵子。计算机程序是基于我们最近开发的基因行为框架实现的。这种计算机框架的优点是:1)加速了开发过程;2)简化了程序开发，方便那些希望用交互式程序打包和分发他们的工作的研究人员。基因行为框架已被成功地用作学习lac操纵子的教程工具，lac操纵子是细菌中基因调控的经典例子。这里描述的trp操作子是此类应用程序的第二个示例。与控制乳糖分解的酪氨酸操纵子不同，酪氨酸操纵子负责氨基酸色氨酸的合成。对于初学者来说，理解trp操纵子的控制机制，特别是衰减系统，通常是具有挑战性的，我们希望这个交互式计算机程序可以通过丰富的文本，图像，动画和交互式步骤来说明这一过程，从而促进和提高学习。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 15th International Conference on Computational Science and Its Applications

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