Issue 5, 2018

Label-free multidimensional information acquisition from optogenetically engineered cells using a graphene transistor

Abstract

The optogenetic technique, which allows the manipulation of cellular activity patterns in space and time by light, has transformed the field of neuroscience. However, acquiring multidimensional optogenetic information remains challenging despite the fact that several cellular information detection methods have been proposed. Herein, we present a new method to acquire label-free multidimensional information from optogenetically engineered cells using a graphene transistor. Using a graphene film to form a strong densely packed layer with cells, the cellular action potentials were characterized as light-activated transistor conductance signals, which quantified the multidimensional optogenetic information. Based on this approach, some important cellular optogenetic information, including electrophysiological state, cell concentration, expression levels of opsin and response to variable light intensity, were also precisely detected. Furthermore, the graphene transistor was also used to distinguish cells expressing different channelrhodopsin-2 variants. Our study offers a general detection method of multidimensional optogenetic information for extending the applications of the optogenetic technique and provides a novel sensor for the development of future biological prosthetic devices.

Graphical abstract: Label-free multidimensional information acquisition from optogenetically engineered cells using a graphene transistor

Supplementary files

Article information

Article type
Paper
Submitted
29 Sep 2017
Accepted
25 Dec 2017
First published
27 Dec 2017

Nanoscale, 2018,10, 2285-2290

Label-free multidimensional information acquisition from optogenetically engineered cells using a graphene transistor

G. Li, J. Yang, W. Yang, F. Wang, Y. Wang, W. Wang and L. Liu, Nanoscale, 2018, 10, 2285 DOI: 10.1039/C7NR07264C

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