Abhijit Lincon, Pratyusa Mohapatra, Soumen Das, Sunando DasGupta
International journal of biological macromolecules 2024 JanThe dynamic equilibrium between an array of molecular forces precisely organizes the native structure of the protein. The charge on the protein, an interconnected network continuum, is crucial in determining its secondary and tertiary structure. The photolysis of the protein by ultraviolet (UV) light occurs by generating reactive oxygen intermediates from the interaction of matter and light. Herein, we have investigated the photolysis of the protein and its prevention by the pre-treatment with silver nanoparticle (AgNP) using non-faradaic electrical impedance spectroscopy (Nf-EIS). Five microliters of protein solution are used to measure its impedimetric parameters via Nf-EIS. The photoionization process sparks off an altered surface charge continuum of the protein molecules in tandem with the genesis of solvated electrons and protons, spurring an upward shift in conductivity. The AgNP pre-treatment has reduced the damaging effects of the UV radiation, which is reflected as lesser conductivity in contrast to the photolyzed protein solution. Raman Spectroscopy and circular dichroism tests affirm the trend of Nf-EIS results. These results show that Nf-EIS can evaluate protein structure analysis utilized in quality assurance and toxicity analysis for biologics. Copyright © 2023 Elsevier B.V. All rights reserved.
Abhijit Lincon, Pratyusa Mohapatra, Soumen Das, Sunando DasGupta. Probing silver nanoparticle mediated mitigation of UV-photolysis in proteins by electrical impedance analysis. International journal of biological macromolecules. 2024 Jan;256(Pt 2):128271
PMID: 38000604
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