合成生物学：对大肠杆菌进行工程改造以使其能感知光线。

Synthetic biology: engineering Escherichia coli to see light.

作者信息

Levskaya Anselm, Chevalier Aaron A, Tabor Jeffrey J, Simpson Zachary Booth, Lavery Laura A, Levy Matthew, Davidson Eric A, Scouras Alexander, Ellington Andrew D, Marcotte Edward M, Voigt Christopher A

机构信息

Biophysics Program, University of California, San Francisco, California 94143, USA.

出版信息

Nature. 2005 Nov 24;438(7067):441-2. doi: 10.1038/nature04405.

DOI:10.1038/nature04405

PMID:16306980

Abstract

We have designed a bacterial system that is switched between different states by red light. The system consists of a synthetic sensor kinase that allows a lawn of bacteria to function as a biological film, such that the projection of a pattern of light on to the bacteria produces a high-definition (about 100 megapixels per square inch), two-dimensional chemical image. This spatial control of bacterial gene expression could be used to 'print' complex biological materials, for example, and to investigate signalling pathways through precise spatial and temporal control of their phosphorylation steps.

摘要

我们设计了一种细菌系统，该系统可通过红光在不同状态之间切换。该系统由一种合成传感激酶组成，它能使一层细菌发挥生物膜的作用，这样将光图案投射到细菌上就能产生高清晰度（约每平方英寸1亿像素）的二维化学图像。例如，这种对细菌基因表达的空间控制可用于“打印”复杂的生物材料，并通过对其磷酸化步骤进行精确的时空控制来研究信号通路。

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合成生物学：对大肠杆菌进行工程改造以使其能感知光线。

Synthetic biology: engineering Escherichia coli to see light.

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