Rapid Discrimination of Bacterial Drug Resistivity by Array‐Based Cross‐Validation Using 2D MoS2

Rapid Discrimination of Bacterial Drug Resistivity by Array‐Based Cross‐Validation Using 2D MoS2

The precise discrimination of microbes based on family, class and drug resistivity is essential for the early diagnosis of infectious diseases. Information about the type and strength of drug resistivity can help the analyst to prescribe a suitable antibiotic at the proper dosage to completely eradi...

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Veröffentlicht in:Chemistry : a European journal 2022-08, Vol.28 (47), p.e202201386-n/a
Hauptverfasser: Behera, Pradipta, Kumar Singh, Krishna, Kumar Saini, Deepak, De, Mrinmoy
Format: Artikel
Sprache:eng
Schlagworte:
2D MoS2
Ampicillin
Antibiotics
bacteria sensing
Cations
Chemistry
Coliforms
Drug resistance
drug-resistant bacteria
E coli
Electrical resistivity
Green buildings
Identification methods
Infectious diseases
Keywords: array-based sensing
Lysates
Microorganisms
Molybdenum disulfide
Receptors
Sensitivity
Sensor arrays
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creator Behera, Pradipta
Kumar Singh, Krishna
Kumar Saini, Deepak
De, Mrinmoy
description The precise discrimination of microbes based on family, class and drug resistivity is essential for the early diagnosis of infectious diseases. Information about the type and strength of drug resistivity can help the analyst to prescribe a suitable antibiotic at the proper dosage to completely eradicate microbes without giving them a chance to gain further resistance. Herein, we propose a sensor array based on the use of cationic two‐dimensional MoS2 units and green fluorescence protein as building blocks. Cationic surfaces of receptors with various functionality were suitable for tunable interaction with anionic surfaces of microbes. The array successfully discriminates six different bacterial strains. The versatile ability of the receptors to bind with the wild‐type as well as the corresponding ampicillin‐resistant strain contributed significantly to rapid detection with high sensitivity. The optimized array was able to classify five different types and three different extents of drug‐resistant variants of Escherichia coli by using bacteria cells and lysates. Finally, we have introduced the cross identification method using both bacteria cells and lysates and we found a great enhancement of detection in sensitivity and accuracy. This is the first report of this approach, which can be extended to many other methods for better accuracy in array‐based detection. Spot the difference: A sensor array comprising cationic 2D MoS2 and GFP has been used to discriminate bacterial analytes. By using this optimized sensor array, bacteria and lysates belonging to different types and with different amounts of drug resistivity were successfully classified. Cross validation of blind samples through combined analysis of bacterial cell and lysates provided improved detection accuracy.
doi_str_mv 10.1002/chem.202201386
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source Wiley Online Library Journals Frontfile Complete
subjects 2D MoS2
Ampicillin
Antibiotics
bacteria sensing
Cations
Chemistry
Coliforms
Drug resistance
drug-resistant bacteria
E coli
Electrical resistivity
Green buildings
Identification methods
Infectious diseases
Keywords: array-based sensing
Lysates
Microorganisms
Molybdenum disulfide
Receptors
Sensitivity
Sensor arrays
title Rapid Discrimination of Bacterial Drug Resistivity by Array‐Based Cross‐Validation Using 2D MoS2
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