Mid-infrared photothermal–fluorescence in situ hybridization for functional analysis and genetic identification of single cells
Mid-infrared photothermal–fluorescence in situ hybridization for functional analysis and genetic identification of single cells
Simultaneous identification and metabolic analysis of microbes with single-cell resolution and high throughput are necessary to answer the question of “who eats what, when, and where” in complex microbial communities. Here, we present a mid-infrared photothermal–fluorescence in situ hybridization (MIP–FISH) platform that enables direct bridging of genotype and phenotype. Through multiple improvements of MIP imaging, the sensitive detection of isotopically labeled compounds incorporated into proteins of individual bacterial cells became possible, while simultaneous detection of FISH labeling with rRNA-targeted probes enabled the identification of the analyzed cells. In proof-of-concept experiments, we showed that the clear spectral red shift in the protein amide I region due to incorporation of 13C atoms originating from 13C-labeled glucose can be exploited by MIP–FISH to discriminate and identify 13C-labeled bacterial cells within a complex human gut microbiome sample. The presented methods open new opportunities for single-cell structure–function analyses for microbiology.
2398–2405
Bai, Yeran
1f194606-25ba-4b4a-88b6-39b56c5c4623
Guo, Zhongyue
b125f711-1b0e-4f40-9bdd-88733c9c1313
Pereira, Fátima C.
a9396948-26f9-4f13-8f83-a22fec1dd0e0
Wagner, Michael
b1db4f29-c6dc-444b-b750-5f6a7afcfab7
Cheng, Ji-Xin
40914528-e4b2-476e-9293-f0e119a59faa
31 January 2023
Bai, Yeran
1f194606-25ba-4b4a-88b6-39b56c5c4623
Guo, Zhongyue
b125f711-1b0e-4f40-9bdd-88733c9c1313
Pereira, Fátima C.
a9396948-26f9-4f13-8f83-a22fec1dd0e0
Wagner, Michael
b1db4f29-c6dc-444b-b750-5f6a7afcfab7
Cheng, Ji-Xin
40914528-e4b2-476e-9293-f0e119a59faa
Bai, Yeran, Guo, Zhongyue, Pereira, Fátima C., Wagner, Michael and Cheng, Ji-Xin
(2023)
Mid-infrared photothermal–fluorescence in situ hybridization for functional analysis and genetic identification of single cells.
Analytical Chemistry, 95 (4), .
(doi:10.1021/acs.analchem.2c04474).
Abstract
Simultaneous identification and metabolic analysis of microbes with single-cell resolution and high throughput are necessary to answer the question of “who eats what, when, and where” in complex microbial communities. Here, we present a mid-infrared photothermal–fluorescence in situ hybridization (MIP–FISH) platform that enables direct bridging of genotype and phenotype. Through multiple improvements of MIP imaging, the sensitive detection of isotopically labeled compounds incorporated into proteins of individual bacterial cells became possible, while simultaneous detection of FISH labeling with rRNA-targeted probes enabled the identification of the analyzed cells. In proof-of-concept experiments, we showed that the clear spectral red shift in the protein amide I region due to incorporation of 13C atoms originating from 13C-labeled glucose can be exploited by MIP–FISH to discriminate and identify 13C-labeled bacterial cells within a complex human gut microbiome sample. The presented methods open new opportunities for single-cell structure–function analyses for microbiology.
Text
bai-et-al-2023-mid-infrared-photothermal-fluorescence-in-situ-hybridization-for-functional-analysis-and-genetic
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Accepted/In Press date: 9 January 2023
e-pub ahead of print date: 18 January 2023
Published date: 31 January 2023
Identifiers
Local EPrints ID: 490654
URI: http://eprints.soton.ac.uk/id/eprint/490654
ISSN: 0003-2700
PURE UUID: 5a2ffc85-98ac-464b-b49e-64bbf8c48b25
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Date deposited: 03 Jun 2024 16:30
Last modified: 04 Jun 2024 02:04
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Contributors
Author:
Yeran Bai
Author:
Zhongyue Guo
Author:
Fátima C. Pereira
Author:
Michael Wagner
Author:
Ji-Xin Cheng
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