Sensing Dynamically Evolved Short‐Range Nanomechanical Forces in Fast‐Mutating Single Viral Spike Proteins

Payam, Amir Farokh; Funari, Riccardo; Scamarcio, Gaetano; Bhalla, Nikhil

doi:10.1002/smsc.202300029

Small Science

2023

DOI: 10.1002/smsc.202300029

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Sensing Dynamically Evolved Short‐Range Nanomechanical Forces in Fast‐Mutating Single Viral Spike Proteins

Amir Farokh Payam

Riccardo Funari

Gaetano Scamarcio

et al.

Abstract: Understanding changes in the mechanical features of a single protein from a mutated virus while establishing its relation to the point mutations is critical in developing new inhibitory routes to tackle the uncontrollable spread of the virus. Addressing this, herein, the chemomechanical features of a single spike protein are quantified from alpha, beta, and gamma variants of SARS‐CoV‐2. Integrated amplitude‐modulation atomic force microscopy is used with dynamic force–distance curve (FDC) spectroscopy, in comb… Show more

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2024

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Electric Field Cycling of Physisorbed Antibodies Reduces Biolayer Polarization Dispersion

Di Franco,

Macchia,

Catacchio

et al. 2024

Advanced Science

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The electric dipoles of proteins in a biolayer determine their dielectric properties through the polarization density P. Hence, its reproducibility is crucial for applications, particularly in bioelectronics. Biolayers encompassing capturing antibodies covalently bound at a biosensing interface are generally preferred for their assumed higher stability. However, surface physisorption is shown to offer advantages like easily scalable fabrication processes and high stability. The present study investigates the effects of electric‐field (EF)‐cycling of anti‐Immunoglobulin M (anti‐IgM) biolayers physisorbed on Au. The impact of EF‐cycling on the dielectric, optical, and mechanical properties of anti‐IgM biolayer is investigated. A reduction of the dispersion (standard deviation over a set of 31 samples) of the measured P values is observed, while the set median stays almost constant. Hence, physisorption combined with EF cycling, results in a biolayer with highly reproducible bioelectronic properties. Additionally, the study provides important insights into the mechanisms of dielectric rearrangement of dipole moments in capturing biolayers after EF‐cycling. Notably, EF‐cycling acts as an annealing process, driving the proteins in the biolayer into a statistically more probable and stable conformational state. Understanding these phenomena enhances the knowledge of the properties of physisorbed biolayers and can inform design strategies for bioelectronic devices.

show abstract

Electric Field Cycling of Physisorbed Antibodies Reduces Biolayer Polarization Dispersion

Di Franco,

Macchia,

Catacchio

et al. 2024

Advanced Science

View full text Add to dashboard Cite

show abstract

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Sensing Dynamically Evolved Short‐Range Nanomechanical Forces in Fast‐Mutating Single Viral Spike Proteins

Cited by 1 publication

References 50 publications

Electric Field Cycling of Physisorbed Antibodies Reduces Biolayer Polarization Dispersion

Electric Field Cycling of Physisorbed Antibodies Reduces Biolayer Polarization Dispersion

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