Aptamer based salmonella typhimurium detection biosensor and preparation method thereof
A biosensor and nucleic acid aptamer technology, applied in the field of biosensors, can solve the problems of high cost, low specificity and sensitivity, and achieve the effects of low detection limit, simple preparation method and reduced complexity.
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Embodiment 1
[0050] The main steps of the electrode modification process are as follows:
[0051] a. The gold electrode is first polished in 0.3 and 0.05 μm alumina slurry until it becomes a mirror surface, and then rinsed repeatedly with PBS and secondary water;
[0052] b. Add 10 μL of HAP2 (10 μM) dropwise to the surface of the electrode, and incubate at room temperature (37°C) for 2 hours. Fix the sulfhydryl chains to the electrode surface through Au-S bonds;
[0053] So far, the modification process of the electrode has come to an end. The following describes the reaction in the homogeneous solution and the main steps in the homogeneous reaction:
[0054] a. Add sterilized water, Aptamer (1 μL), 1 μL of Primer chains of different concentrations (concentrations are 20 μM, 10 μM, 5 μM, 2 μM, 1 μM) and the target substance to the pre-prepared sterilized No. 1-5 centrifuges tube. Shake for 30s, then put the mixed mixture into a 37°C incubator and incubate for 1h;
[0055] b. Add 10× b...
Embodiment 2
[0067] A preparation method of the electrochemical biosensor of the present invention:
[0068] The main steps of the electrode modification process are as follows:
[0069] a. The gold electrode is first polished in 0.3 and 0.05 μm alumina slurry until it becomes a mirror surface, and then rinsed repeatedly with PBS and secondary water;
[0070] b. Add 10 μL of HAP2 (10 μM) dropwise to the electrode surface and incubate at room temperature for 2 hours. Fix the sulfhydryl chains to the electrode surface through Au-S bonds;
[0071] So far, the modification process of the electrode has come to an end. The following describes the reaction in the homogeneous solution and the main steps in the homogeneous reaction:
[0072] a. Add sterilized water, Primer (1 μL), 1 μL of different concentrations of Aptamer chains (concentrations are 20 μM, 10 μM, 5 μM, 2 μM, 1 μM) and the target substance to the pre-prepared sterilized No. 1-5 centrifuge tube. Shake for 30s, then put the mixed...
Embodiment 3
[0080] A preparation method of the electrochemical biosensor of the present invention:
[0081] The main steps of the electrode modification process are as follows:
[0082] a. The gold electrode is first polished in 0.3 and 0.05 μm alumina slurry until it becomes a mirror surface, and then rinsed repeatedly with PBS and secondary water;
[0083] b. Add 10 μL of HAP2 (10 μM) dropwise to the electrode surface and incubate at room temperature for 1 h. Fix the sulfhydryl chains to the electrode surface through Au-S bonds;
[0084] So far, the modification process of the electrode has come to an end. The following describes the reaction in the homogeneous solution and the main steps in the homogeneous reaction:
[0085] a. Add sterilized water, Primer (1 μL), Aptamer chain (1 μL) and the target substance into pre-prepared sterilized centrifuge tubes No. 1-5. Shake for 30s, then put the mixed mixture into a 37°C incubator and incubate for 1h;
[0086] b. Add 10× buffer buffer s...
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