Optical photothermal infrared - fluorescence in situ hybridization (OPTIR-FISH)
Optical photothermal infrared - fluorescence in situ hybridization (OPTIR-FISH)
Understanding the metabolic activities of individual cells within complex communities is critical for unraveling their role in human disease. Here, we present a comprehensive protocol for simultaneous cell identification and metabolic analysis with the OPTIR-FISH platform by combining rRNA-tagged FISH probes and isotope-labeled substrates. Fluorescence imaging provides cell identification by the specific binding of rRNA-tagged FISH probes, while OPTIR imaging provides metabolic activities within single cells by isotope-induced red shift on OPTIR spectra. Using bacteria cultured with
13 C-glucose as a test bed, the protocol outlines microbial culture with isotopic labeling, fluorescence in situ hybridization (FISH), sample preparation, optimization of the OPTIR-FISH imaging setup, and data acquisition. We also demonstrate how to perform image analysis and interpret spectral data at the single-cell level with high throughput. This protocol's standardized and detailed nature will greatly facilitate its adoption by researchers from diverse backgrounds and disciplines within the broad single-cell metabolism research community.
Guo, Zhongyue
b125f711-1b0e-4f40-9bdd-88733c9c1313
Bai, Yeran
1f194606-25ba-4b4a-88b6-39b56c5c4623
Pereira, Fátima C.
a9396948-26f9-4f13-8f83-a22fec1dd0e0
Cheng, Ji-Xin
40914528-e4b2-476e-9293-f0e119a59faa
23 February 2024
Guo, Zhongyue
b125f711-1b0e-4f40-9bdd-88733c9c1313
Bai, Yeran
1f194606-25ba-4b4a-88b6-39b56c5c4623
Pereira, Fátima C.
a9396948-26f9-4f13-8f83-a22fec1dd0e0
Cheng, Ji-Xin
40914528-e4b2-476e-9293-f0e119a59faa
Guo, Zhongyue, Bai, Yeran, Pereira, Fátima C. and Cheng, Ji-Xin
(2024)
Optical photothermal infrared - fluorescence in situ hybridization (OPTIR-FISH).
Journal of Visualized Experiments, 2024 (204), [e66562].
(doi:10.3791/66562).
Abstract
Understanding the metabolic activities of individual cells within complex communities is critical for unraveling their role in human disease. Here, we present a comprehensive protocol for simultaneous cell identification and metabolic analysis with the OPTIR-FISH platform by combining rRNA-tagged FISH probes and isotope-labeled substrates. Fluorescence imaging provides cell identification by the specific binding of rRNA-tagged FISH probes, while OPTIR imaging provides metabolic activities within single cells by isotope-induced red shift on OPTIR spectra. Using bacteria cultured with
13 C-glucose as a test bed, the protocol outlines microbial culture with isotopic labeling, fluorescence in situ hybridization (FISH), sample preparation, optimization of the OPTIR-FISH imaging setup, and data acquisition. We also demonstrate how to perform image analysis and interpret spectral data at the single-cell level with high throughput. This protocol's standardized and detailed nature will greatly facilitate its adoption by researchers from diverse backgrounds and disciplines within the broad single-cell metabolism research community.
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66562_R1
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e-pub ahead of print date: 23 February 2024
Published date: 23 February 2024
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© 2024, Journal of Visualized Experiments. All rights reserved.
Identifiers
Local EPrints ID: 490015
URI: http://eprints.soton.ac.uk/id/eprint/490015
ISSN: 1940-087X
PURE UUID: 0b25a2e9-29d1-4574-ac39-d8d24a35d69e
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Date deposited: 13 May 2024 16:46
Last modified: 06 Jun 2024 02:14
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Contributors
Author:
Zhongyue Guo
Author:
Yeran Bai
Author:
Fátima C. Pereira
Author:
Ji-Xin Cheng
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