Bringing Light into Cell-Free Expression

Cell-free systems, as part of the synthetic biology field, have become a critical platform in biological studies. However, there is a lack of research into developing a switch for a dynamical control of the transcriptional and translational process. The optogenetic tool has been widely proven as an...

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Veröffentlicht in:	ACS synthetic biology 2020-08, Vol.9 (8), p.2144-2153
Hauptverfasser:	Zhang, Peng, Yang, Junzhu, Cho, Eunhee, Lu, Yuan
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container_title	ACS synthetic biology
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creator	Zhang, Peng Yang, Junzhu Cho, Eunhee Lu, Yuan
description	Cell-free systems, as part of the synthetic biology field, have become a critical platform in biological studies. However, there is a lack of research into developing a switch for a dynamical control of the transcriptional and translational process. The optogenetic tool has been widely proven as an ideal control switch for protein synthesis due to its nontoxicity and excellent time-space conversion. Hence, in this study, a blue light-regulated two-component system named YF1/FixJ was incorporated into an Escherichia coli-based cell-free system to control protein synthesis. The corresponding cell-free system successfully achieved a 5-fold dynamic protein expression by blue light repression and 3-fold dynamic expression by blue light activation. With the aim of expanding the applications of cell-free synthetic biology, the cell-free blue light-sensing system was used to perform imaging, light-controlled antibody synthesis, and light-triggered artificial cell assembly. This study can provide a guide for further research into the field of cell-free optical sensing. Moreover, it will also promote the development of cell-free synthetic biology and optogenetics through applying the cell-free optical sensing system to synthetic biology education, biopharmaceutical research, and artificial cell construction.
doi_str_mv	10.1021/acssynbio.0c00211
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title	Bringing Light into Cell-Free Expression
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