Aptasensor based on rGO-AuNPs Field-effect Transistor for selective detection of Escherichia coli in river water

IF 2.6 4区生物学 Q2 BIOCHEMICAL RESEARCH METHODS Analytical biochemistry Pub Date : 2025-02-05 DOI:10.1016/j.ab.2025.115796

Hale Alvandi , Ali Hossein Rezayan , Hassan Hajghassem , Fereshteh Rahimi , Reza Askari Moghadam , Ali Firoozbakhtian

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引用次数: 0

Abstract

Water and food-borne diseases are public health problems. It is estimated that only water-borne diseases cause 2.2 million deaths annually. E. coli is one of the most important bacteria in water monitoring and is on the WHO's list of priority pathogens for diagnosis and treatment. Conventional methods for detecting E. coli are not effective due to their time-consuming nature, the need for expensive equipment, and low sensitivity. Therefore, a rapid diagnostic method is essential for accurate detection of E. coli. Here, a Field-effect Transistor (FET) was used to detect E. coli based on rGO, AuNPs, and ssDNA-aptamer. After characterizing the rGO-AuNPs-Apt FET, the current of the nanobiosensor was measured with each modification. The nanobiosensor's linear range was (3–3 × 10⁶ CFU/ml), and LOD reached 3 CFU/ml in the PBS buffer. The nanobiosensor's response was completely selective and stable for up to 4 weeks. The rGO-AuNPs-Apt FET specifically detected E. coli in the river water down to 10 CFU/ml, even in a mixture of other bacteria at higher concentrations. The small sample size, ease of use, and accuracy of detection are the advantages of rGO-AuNPs-Apt FET, which can be used as a sensor for water monitoring in 15 min.

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来源期刊

Analytical biochemistry 生物-分析化学

CiteScore

5.70

自引率

0.00%

发文量

283

审稿时长

44 days

期刊介绍： The journal''s title Analytical Biochemistry: Methods in the Biological Sciences declares its broad scope: methods for the basic biological sciences that include biochemistry, molecular genetics, cell biology, proteomics, immunology, bioinformatics and wherever the frontiers of research take the field. The emphasis is on methods from the strictly analytical to the more preparative that would include novel approaches to protein purification as well as improvements in cell and organ culture. The actual techniques are equally inclusive ranging from aptamers to zymology. The journal has been particularly active in: -Analytical techniques for biological molecules- Aptamer selection and utilization- Biosensors- Chromatography- Cloning, sequencing and mutagenesis- Electrochemical methods- Electrophoresis- Enzyme characterization methods- Immunological approaches- Mass spectrometry of proteins and nucleic acids- Metabolomics- Nano level techniques- Optical spectroscopy in all its forms. The journal is reluctant to include most drug and strictly clinical studies as there are more suitable publication platforms for these types of papers.