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Single molecule thermodynamic penalties applied to enzymes by whispering gallery mode biosensors

Single molecule thermodynamic penalties applied to enzymes by whispering gallery mode biosensors
Single molecule thermodynamic penalties applied to enzymes by whispering gallery mode biosensors

Optical microcavities, particularly whispering gallery mode (WGM) microcavities enhanced by plasmonic nanorods, are emerging as powerful platforms for single-molecule sensing. However, the impact of optical forces from the plasmonic near field on analyte molecules is inadequately understood. Using a standard optoplasmonic WGM single-molecule sensor to monitor two enzymes, both of which undergo an open-to-closed-to-open conformational transition, the work done on an enzyme by the WGM sensor as atoms of the enzyme move through the electric field gradient of the plasmonic hotspot during conformational change has been quantified. As the work done by the sensor on analyte enzymes can be modulated by varying WGM intensity, the WGM microcavity system can be used to apply free energy penalties to regulate enzyme activity at the single-molecule level. The findings advance the understanding of optical forces in WGM single-molecule sensing, potentially leading to the capability to precisely manipulate enzyme activity at the single-molecule level through tailored optical modulation.

biosensors, enzymes, optical forces, optoplasmonics, peptides and proteins, plasmonics
2198-3844
Houghton, Matthew C.
da21c83b-f815-46c2-9bcd-070edcf7e1db
Toropov, Nikita A.
29c05925-314b-472c-918e-2ad69c08755f
Yu, Deshui
c265a59d-c75e-441c-a175-a76c709b4ef2
Bagby, Stefan
41286315-9c26-4681-b9ee-7cd9edc40be3
Vollmer, Frank
2b6e4a03-2ef7-4073-b60a-040ecc50c8e0
Houghton, Matthew C.
da21c83b-f815-46c2-9bcd-070edcf7e1db
Toropov, Nikita A.
29c05925-314b-472c-918e-2ad69c08755f
Yu, Deshui
c265a59d-c75e-441c-a175-a76c709b4ef2
Bagby, Stefan
41286315-9c26-4681-b9ee-7cd9edc40be3
Vollmer, Frank
2b6e4a03-2ef7-4073-b60a-040ecc50c8e0

Houghton, Matthew C., Toropov, Nikita A., Yu, Deshui, Bagby, Stefan and Vollmer, Frank (2024) Single molecule thermodynamic penalties applied to enzymes by whispering gallery mode biosensors. Advanced Science, 11 (35), [2403195]. (doi:10.1002/advs.202403195).

Record type: Article

Abstract

Optical microcavities, particularly whispering gallery mode (WGM) microcavities enhanced by plasmonic nanorods, are emerging as powerful platforms for single-molecule sensing. However, the impact of optical forces from the plasmonic near field on analyte molecules is inadequately understood. Using a standard optoplasmonic WGM single-molecule sensor to monitor two enzymes, both of which undergo an open-to-closed-to-open conformational transition, the work done on an enzyme by the WGM sensor as atoms of the enzyme move through the electric field gradient of the plasmonic hotspot during conformational change has been quantified. As the work done by the sensor on analyte enzymes can be modulated by varying WGM intensity, the WGM microcavity system can be used to apply free energy penalties to regulate enzyme activity at the single-molecule level. The findings advance the understanding of optical forces in WGM single-molecule sensing, potentially leading to the capability to precisely manipulate enzyme activity at the single-molecule level through tailored optical modulation.

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Advanced Science - 2024 - Houghton - Single Molecule Thermodynamic Penalties Applied to Enzymes by Whispering Gallery Mode - Version of Record
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e-pub ahead of print date: 12 July 2024
Published date: 26 September 2024
Keywords: biosensors, enzymes, optical forces, optoplasmonics, peptides and proteins, plasmonics
Learn more about Optoelectronics Research Centre research

Identifiers

Local EPrints ID: 499336
URI: http://eprints.soton.ac.uk/id/eprint/499336
DOI: doi:10.1002/advs.202403195
ISSN: 2198-3844
PURE UUID: cfc61eae-111d-47d5-a23d-5f082b01c1fb
ORCID for Nikita A. Toropov: ORCID iD orcid.org/0000-0002-0297-3661

Catalogue record

Date deposited: 17 Mar 2025 17:38
Last modified: 22 Aug 2025 02:38

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Contributors

Author: Matthew C. Houghton
Author: Nikita A. Toropov ORCID iD
Author: Deshui Yu
Author: Stefan Bagby
Author: Frank Vollmer

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