Krishnan, Jegatha Nambi Park, Sang-Hwi Kim, Sang Kyung 2024-01-20T00:33:35Z 2024-01-20T00:33:35Z 2021-09-05 2017-09 1424-8220 https://pubs.kist.re.kr/handle/201004/122326 A new single-step aptamer-based surface-enhanced fluorescent optical sensor is built, by combining an aptamer-target interaction for target recognition and a fluorophore interaction for signal enhancement. The developed aptasensor is simple, sensitive, specific and stable for the detection of thrombin. A new nanometallic Au structure in the range of 100 nm was constructed through effective electroless plating method on a Cu thin film. Cu+ ions act as sacrificial seeds for the reduction of Au2+/3+ ions to form Au nanolawns. In order to utilize the structure for a fluorescence-based sensor, aptamer conjugated with Cy3 was immobilized on the nanogold substrate through electrostatic attraction. The Au substrate was coated with chitosan (molecular weight 1000 Da). Thrombin binding aptamer (TBA) was applied as a model system demonstrating the aptamer-based fluorescence assay on nanogold substrates. Thrice-enhanced fluorescence emission was achieved with Cy3-conjugated TBA stably immobilized on the chitosan-coated Au substrate. The intensity change was proportional to the concentration of thrombin from 10 mu M to 10 pM, whereas the intensity change was ignorable for other proteins such as human serum albumin (HSA). Aptamer-based assay benefited from simple immobilization of receptors and Au nanostructure contributed in building an effective surface enhancing/positively charged substrate was proved. Such an aptasensor holding high utilities for point-of-care devices by incorporating simplicity, sensitivity and selectivity in detection, low-cost for test, small sample volumes has been developed. English MDPI AG RESONANCE ENERGY-TRANSFER GOLD NANOPARTICLES THROMBIN DETECTION PROTEIN-DETECTION MOLECULES RECOGNITION APTASENSOR BIOSENSORS SELECTION BLOOD Aptamer-Based Single-Step Assay by the Fluorescence Enhancement on Electroless Plated Nano Au Substrate Article 10.3390/s17092044 1 SENSORS, v.17, no.9 SENSORS 17 9 scie scopus 000411484700114 2-s2.0-85029182113 Chemistry, Analytical Engineering, Electrical & Electronic Instruments & Instrumentation Chemistry Engineering Instruments & Instrumentation Article RESONANCE ENERGY-TRANSFER GOLD NANOPARTICLES THROMBIN DETECTION PROTEIN-DETECTION MOLECULES RECOGNITION APTASENSOR BIOSENSORS SELECTION BLOOD aptamer electroless deposition gold nanostructure thrombin human serum albumin fluorescence optical biosensor