Synthetic gene circuits: design with directed evolution.

Eric L Haseltine, Frances H Arnold
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引用次数: 132

Abstract

Synthetic circuits offer great promise for generating insights into nature's underlying design principles or forward engineering novel biotechnology applications. However, construction of these circuits is not straightforward. Synthetic circuits generally consist of components optimized to function in their natural context, not in the context of the synthetic circuit. Combining mathematical modeling with directed evolution offers one promising means for addressing this problem. Modeling identifies mutational targets and limits the evolutionary search space for directed evolution, which alters circuit performance without the need for detailed biophysical information. This review examines strategies for integrating modeling and directed evolution and discusses the utility and limitations of available methods.

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合成基因电路:定向进化的设计。
合成电路为深入了解自然的基本设计原理或前沿工程新生物技术应用提供了巨大的希望。然而,这些电路的构造并不简单。合成电路通常由优化的元件组成,以在其自然环境中发挥作用,而不是在合成电路的环境中。将数学建模与定向进化相结合为解决这一问题提供了一种有希望的方法。建模识别突变目标并限制定向进化的进化搜索空间,这在不需要详细的生物物理信息的情况下改变了电路性能。这篇综述检查了集成建模和定向进化的策略,并讨论了可用方法的效用和局限性。
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Visualizing flexibility at molecular resolution: analysis of heterogeneity in single-particle electron microscopy reconstructions. Phase boundaries and biological membranes. Calculation of protein-ligand binding affinities. Synthetic gene circuits: design with directed evolution. Bilayer thickness and membrane protein function: an energetic perspective.
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