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Biogenic carbon dots: a novel mechanistic approach to combat multidrug-resistant critical pathogens on the global priority list

Ajith Manayil Parambil, Abhinav Prasad, Anuj Kumar Tomar, Ilora Ghosh, Paulraj Rajamani

2023Journal of Materials Chemistry B27 citationsDOI

Abstract

is highly effective, demonstrating their promise as potent antimicrobial agents. The research sheds light on the capacity of CDs to generate ROS, leading to membrane lipid peroxidation, loss of membrane potential, and rupture of bacterial cell membranes, resulting in cytoplasmic leakage. SEM and TEM analysis revealed time-dependent cell surface, morphological, and ultrastructural changes such as elongation of the cells, irregular surface protrusion, cell wall and cell membrane disintegration, internalization, and aggregations of CDs. These mechanisms offer a comprehensive explanation of how CDs exert their anti-bacterial effects. We also determined the status of plasma membrane integrity and evaluated live (viable) and dead cells upon CD exposure by flow cytometry. Furthermore, comet assay, biochemical assays, and SDS PAGE identify DNA damage, carbohydrate and protein leakage, and distinct differences in protein expression, adding another layer of understanding to the mechanisms behind CDs' anti-bacterial activity. These findings pave the way for future research on managing ROS levels and developing CDs with enhanced anti-bacterial properties, presenting a breakthrough in anti-microbial therapy.

Topics & Concepts

NanotechnologyCarbon fibersMultiple drug resistanceMaterials scienceComputational biologyBiologyMicrobiologyDrug resistanceComposite numberComposite materialCarbon and Quantum Dots ApplicationsMedicinal Plants and NeuroprotectionQuantum Dots Synthesis And Properties
Biogenic carbon dots: a novel mechanistic approach to combat multidrug-resistant critical pathogens on the global priority list | Litcius