Rational design of a user-friendly aptamer/peptide-based device for the detection of staphylococcus aureus

Luca Ronda; Alessandro Tonelli; Elisa Sogne; Ida Autiero; Francesca Spyrakis; Sara Pellegrino; Giorgio Abbiati; Elisa Maffioli; Carsten Schulte; Riccardo Piano; Pietro Cozzini; Andrea Mozzarelli; Stefano Bettati; Francesca Clerici; Paolo Milani; Cristina Lenardi; Gabriella Tedeschi; Maria Luisa Gelmi

doi:10.3390/s20174977

Rational design of a user-friendly aptamer/peptide-based device for the detection of staphylococcus aureus

Luca Ronda, Alessandro Tonelli, Elisa Sogne, Ida Autiero, Francesca Spyrakis, Sara Pellegrino, Giorgio Abbiati, Elisa Maffioli, Carsten Schulte, Riccardo Piano, Pietro Cozzini, Andrea Mozzarelli, Stefano Bettati^*, Francesca Clerici, Paolo Milani, Cristina Lenardi, Gabriella Tedeschi, Maria Luisa Gelmi

^*Corresponding author for this work

Biomedical Engineering

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

10 Citations (Scopus)

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Abstract

The urgent need to develop a detection system for Staphylococcus aureus, one of the most common causes of infection, is prompting research towards novel approaches and devices, with a particular focus on point-of-care analysis. Biosensors are promising systems to achieve this aim. We coupled the selectivity and affinity of aptamers, short nucleic acids sequences able to recognize specific epitopes on bacterial surface, immobilized at high density on a nanostructured zirconium dioxide surface, with the rational design of specifically interacting fluorescent peptides to assemble an easy-to-use detection device. We show that the displacement of fluorescent peptides upon the competitive binding of S. aureus to immobilized aptamers can be detected and quantified through fluorescence loss. This approach could be also applied to the detection of other bacterial species once aptamers interacting with specific antigens will be identified, allowing the development of a platform for easy detection of a pathogen without requiring access to a healthcare environment.

Original language	English
Article number	4977
Number of pages	22
Journal	Sensors (Switzerland)
Volume	20
Issue number	17
DOIs	https://doi.org/10.3390/s20174977
Publication status	Published - 2 Sept 2020

Funding

This research was funded by Fondazione Cariplo, Grant No. 2012-0907.

Keywords

Biosensors
Circular dichroism
Fluorescence
Molecular dynamics
Nanostructured surface
Point-of-care detection
Staphylococcus aureus

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10.3390/s20174977Licence: CC BY 4.0

sensors-Rational-design-of-a-user-friendly-aptamerpeptide-based-device-for-the-detection-of-staphylococcus-aureusFinal published version, 3.11 MBLicence: CC BY 4.0

Cite this

Ronda, L., Tonelli, A., Sogne, E., Autiero, I., Spyrakis, F., Pellegrino, S., Abbiati, G., Maffioli, E., Schulte, C., Piano, R., Cozzini, P., Mozzarelli, A., Bettati, S., Clerici, F., Milani, P., Lenardi, C., Tedeschi, G., & Gelmi, M. L. (2020). Rational design of a user-friendly aptamer/peptide-based device for the detection of staphylococcus aureus. Sensors (Switzerland), 20(17), Article 4977. https://doi.org/10.3390/s20174977

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abstract = "The urgent need to develop a detection system for Staphylococcus aureus, one of the most common causes of infection, is prompting research towards novel approaches and devices, with a particular focus on point-of-care analysis. Biosensors are promising systems to achieve this aim. We coupled the selectivity and affinity of aptamers, short nucleic acids sequences able to recognize specific epitopes on bacterial surface, immobilized at high density on a nanostructured zirconium dioxide surface, with the rational design of specifically interacting fluorescent peptides to assemble an easy-to-use detection device. We show that the displacement of fluorescent peptides upon the competitive binding of S. aureus to immobilized aptamers can be detected and quantified through fluorescence loss. This approach could be also applied to the detection of other bacterial species once aptamers interacting with specific antigens will be identified, allowing the development of a platform for easy detection of a pathogen without requiring access to a healthcare environment.",

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Ronda, L, Tonelli, A, Sogne, E, Autiero, I, Spyrakis, F, Pellegrino, S, Abbiati, G, Maffioli, E, Schulte, C, Piano, R, Cozzini, P, Mozzarelli, A, Bettati, S, Clerici, F, Milani, P, Lenardi, C, Tedeschi, G & Gelmi, ML 2020, 'Rational design of a user-friendly aptamer/peptide-based device for the detection of staphylococcus aureus', Sensors (Switzerland), vol. 20, no. 17, 4977. https://doi.org/10.3390/s20174977

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AU - Ronda, Luca

AU - Tonelli, Alessandro

AU - Sogne, Elisa

AU - Autiero, Ida

AU - Spyrakis, Francesca

AU - Pellegrino, Sara

AU - Abbiati, Giorgio

AU - Maffioli, Elisa

AU - Schulte, Carsten

AU - Piano, Riccardo

AU - Cozzini, Pietro

AU - Mozzarelli, Andrea

AU - Bettati, Stefano

AU - Clerici, Francesca

AU - Milani, Paolo

AU - Lenardi, Cristina

AU - Tedeschi, Gabriella

AU - Gelmi, Maria Luisa

PY - 2020/9/2

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AB - The urgent need to develop a detection system for Staphylococcus aureus, one of the most common causes of infection, is prompting research towards novel approaches and devices, with a particular focus on point-of-care analysis. Biosensors are promising systems to achieve this aim. We coupled the selectivity and affinity of aptamers, short nucleic acids sequences able to recognize specific epitopes on bacterial surface, immobilized at high density on a nanostructured zirconium dioxide surface, with the rational design of specifically interacting fluorescent peptides to assemble an easy-to-use detection device. We show that the displacement of fluorescent peptides upon the competitive binding of S. aureus to immobilized aptamers can be detected and quantified through fluorescence loss. This approach could be also applied to the detection of other bacterial species once aptamers interacting with specific antigens will be identified, allowing the development of a platform for easy detection of a pathogen without requiring access to a healthcare environment.

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KW - Circular dichroism

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KW - Nanostructured surface

KW - Point-of-care detection

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Rational design of a user-friendly aptamer/peptide-based device for the detection of staphylococcus aureus

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