| Abstract: | Current demand for a stable, low cost and sensitive malaria sensor has prompted to explore novel recognition systems that can substitute widely used protein based labile biorecognition elements to be used in point of care diagnostic devices. Here, we report a novel ssDNA aptamer of 90 mer sequence developed by SELEX process against HRP‐II, a specific biomarker for Plasmodium falciparum strains. High stability of the secondary structure of the isolated aptamer was discerned from its free energy of folding of ?20.40 kcal mole?1. The binding constant (Kd) of the aptamer with HRP‐II analysed by isothermal titration calorimetry was ~1.32 μM. Circular dichroism studies indicated B form of the aptamer DNA. The aptamer was chemically immobilized on a gold electrode surface through a self‐assembled monolayer of dithio‐bis(succinimidyl) propionate to produce the aptasensor. The step wise modification of the layers over the gold electrode during fabrication of the aptasensor was confirmed by cyclic voltammetry. The aptasensor was then challenged with different concentration of HRP‐II and analysed the interaction signals through electrochemical impedance spectroscopy. The impedance signal behaved reciprocally with the increasing concentrations of the target in the sample from which a dynamic range of 1 pM–500 pM (R2=0.99) and LOD of ~3.15 pM were discerned. The applicability of the developed aptasensor to detect HRP‐II in mimicked real sample was also validated. |
