Design-driven, multi-use research agendas to enable applied synthetic biology for global health.

Systems and Synthetic Biology Pub Date : 2013-09-01 Epub Date: 2013-07-20 DOI:10.1007/s11693-013-9118-2
James M Carothers
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引用次数: 16

Abstract

Many of the synthetic biological devices, pathways and systems that can be engineered are multi-use, in the sense that they could be used both for commercially-important applications and to help meet global health needs. The on-going development of models and simulation tools for assembling component parts into functionally-complex devices and systems will enable successful engineering with much less trial-and-error experimentation and laboratory infrastructure. As illustrations, I draw upon recent examples from my own work and the broader Keasling research group at the University of California Berkeley and the Joint BioEnergy Institute, of which I was formerly a part. By combining multi-use synthetic biology research agendas with advanced computer-aided design tool creation, it may be possible to more rapidly engineer safe and effective synthetic biology technologies that help address a wide range of global health problems.

设计驱动的多用途研究议程,使应用合成生物学促进全球健康。
可以设计的许多合成生物装置、途径和系统都是多用途的,即它们既可用于具有重要商业意义的应用,也可用于帮助满足全球卫生需求。用于将组件组装成功能复杂的设备和系统的模型和仿真工具的持续发展将使成功的工程与更少的试错实验和实验室基础设施成为可能。为了说明这一点,我从我自己的工作、加州大学伯克利分校的Keasling研究小组和联合生物能源研究所(Joint BioEnergy Institute,我曾是该研究所的一员)中引用了最近的例子。通过将多用途合成生物学研究议程与先进的计算机辅助设计工具创建相结合,有可能更快地设计出安全有效的合成生物学技术,帮助解决范围广泛的全球健康问题。
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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