Spermine Enhances the Peroxidase Activities of Multimeric Antiparallel G-quadruplex DNAzymes

Raphael Adeoye; T. Komang Ralebitso-Senior; Amanda Boddis; Amanda J. Reid; Francesca Giuntini; Amos Akintayo Fatokun; Andrew  Powell; Adaoha Ihekwaba-Ndibe; Sylvia Malomo; Femi Olorunniji

doi:10.3390/bios15010012

Spermine Enhances the Peroxidase Activities of Multimeric Antiparallel G-quadruplex DNAzymes

Raphael Adeoye
, T. Komang Ralebitso-Senior
, Amanda Boddis
, Amanda J. Reid
, Francesca Giuntini
, Amos Akintayo Fatokun
, Andrew Powell
, Adaoha Ihekwaba-Ndibe
, Sylvia Malomo
, Femi Olorunniji

CEES School of Science

Liverpool John Moores University
University of Ilorin

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

68 Downloads (Pure)

Abstract

G-quadruplex (G4) DNAzymes with peroxidase activities hold potential for applications in biosensing. While these nanozymes are easy to assemble, they are not as efficient as natural peroxidase enzymes. Several approaches are being used to better understand the structural basis of their reaction mechanisms, with a view to designing constructs with improved catalytic activities. Spermine alters the structures and enhances the activities of some G4 DNAzymes. The reported effect of spermine in shifting the conformation of some G4 DNAzymes from antiparallel to parallel has not been tested on multimeric G4 DNAzymes. In this study, we examined the effects of spermine on the catalytic activities of multivalent constructs of Bcl2, c-MYC, PS2.M, and PS5.M. Our findings show that spermine significantly improved the peroxidase activity of PS2.M, an antiparallel G4 DNAzyme, while there was no significant effect on c-MYC, which already exists in a parallel conformation. The addition of spermine led to a substantial increase in the initial velocity of PS2.M and its multimeric form, enhancing it by approximately twofold. Therefore, spermine enhancement offers promise in expanding the range of DNAzymes available for use as biosensing tools.

Original language	English
Article number	12
Number of pages	13
Journal	Biosensors
Volume	15
Issue number	1
Early online date	2 Jan 2025
DOIs	https://doi.org/10.3390/bios15010012
Publication status	Published - 2 Jan 2025

Bibliographical note

© 2025 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).

Funder

This research was supported by institutional funding from Liverpool John Moores University, Liverpool, UK.

Funding

This research was supported by institutional funding from Liverpool John Moores University, Liverpool, UK.

Funders
Liverpool John Moores University

Keywords

DNAzymes
G-quadruplex
biosensing
multivalent G-quartets
nanozymes
spermine

ASJC Scopus subject areas

Analytical Chemistry
Biotechnology
Biomedical Engineering
Instrumentation
Engineering (miscellaneous)
Clinical Biochemistry

Access to Document

10.3390/bios15010012Licence: CC BY

Ihekwaba2024VoRFinal published version, 2.96 MBLicence: CC BY

Cite this

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abstract = "G-quadruplex (G4) DNAzymes with peroxidase activities hold potential for applications in biosensing. While these nanozymes are easy to assemble, they are not as efficient as natural peroxidase enzymes. Several approaches are being used to better understand the structural basis of their reaction mechanisms, with a view to designing constructs with improved catalytic activities. Spermine alters the structures and enhances the activities of some G4 DNAzymes. The reported effect of spermine in shifting the conformation of some G4 DNAzymes from antiparallel to parallel has not been tested on multimeric G4 DNAzymes. In this study, we examined the effects of spermine on the catalytic activities of multivalent constructs of Bcl2, c-MYC, PS2.M, and PS5.M. Our findings show that spermine significantly improved the peroxidase activity of PS2.M, an antiparallel G4 DNAzyme, while there was no significant effect on c-MYC, which already exists in a parallel conformation. The addition of spermine led to a substantial increase in the initial velocity of PS2.M and its multimeric form, enhancing it by approximately twofold. Therefore, spermine enhancement offers promise in expanding the range of DNAzymes available for use as biosensing tools.",

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AU - Reid, Amanda J.

AU - Giuntini, Francesca

AU - Fatokun, Amos Akintayo

AU - Powell, Andrew

AU - Ihekwaba-Ndibe, Adaoha

AU - Malomo, Sylvia

AU - Olorunniji, Femi

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N2 - G-quadruplex (G4) DNAzymes with peroxidase activities hold potential for applications in biosensing. While these nanozymes are easy to assemble, they are not as efficient as natural peroxidase enzymes. Several approaches are being used to better understand the structural basis of their reaction mechanisms, with a view to designing constructs with improved catalytic activities. Spermine alters the structures and enhances the activities of some G4 DNAzymes. The reported effect of spermine in shifting the conformation of some G4 DNAzymes from antiparallel to parallel has not been tested on multimeric G4 DNAzymes. In this study, we examined the effects of spermine on the catalytic activities of multivalent constructs of Bcl2, c-MYC, PS2.M, and PS5.M. Our findings show that spermine significantly improved the peroxidase activity of PS2.M, an antiparallel G4 DNAzyme, while there was no significant effect on c-MYC, which already exists in a parallel conformation. The addition of spermine led to a substantial increase in the initial velocity of PS2.M and its multimeric form, enhancing it by approximately twofold. Therefore, spermine enhancement offers promise in expanding the range of DNAzymes available for use as biosensing tools.

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Spermine Enhances the Peroxidase Activities of Multimeric Antiparallel G-quadruplex DNAzymes

Abstract

Bibliographical note

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Funding

Keywords

ASJC Scopus subject areas

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