Surface Immobilized Nucleic Acid-Transcription Factor Quantum Dots for Biosensing.
Mingfu ChenThuy T NguyenNitinun VarongchayakulChloé GrazonMargaret ChernR C BaerSe Bastien LecommandouxCatherine M KlapperichJames E GalaganAllison M DennisMark W GrinstaffPublished in: Advanced healthcare materials (2020)
Immobilization of biosensors on surfaces is a key step toward development of devices for real-world applications. Here the preparation, characterization, and evaluation of a surface-bound transcription factor-nucleic acid complex for analyte detection as an alternative to conventional systems employing aptamers or antibodies are described. The sensor consists of a gold surface modified with thiolated Cy5 fluorophore-labeled DNA and an allosteric transcription factor (TetR) linked to a quantum dot (QD). Upon addition of anhydrotetracycline (aTc)-the analyte-the TetR-QDs release from the surface-bound DNA, resulting in loss of the Förster resonance energy transfer signal. The sensor responds in a dose-dependent manner over the relevant range of 0-200 µm aTc with a limit of detection of 80 nm. The fabrication of the sensor and the subsequent real-time quantitative measurements establish a framework for the design of future surface-bound, affinity-based biosensors using allosteric transcription factors for molecular recognition.