Abstract
Abstract We had previously reported the detection of a model protein bovine serum albumin (BSA) using antibody-immobilized tapered fiber optic biosensors (TFOBS) at 1310 nm and 1550 nm under stagnant and flow conditions. Because of recent interest in pathogen detection based on DNA, in this work we explore the application of these sensors for the detection of single stranded DNA (ssDNA). We show that it is feasible to directly detect the hybridization of a 10-mer ssDNA to its complementary strand immobilized on the sensor surface. Detection was performed under flow conditions because flow reduces non-specific binding to sensor surface, eliminates optical transmission changes due to mechanical movements, and allows for instantaneous switching of samples when needed. TFOBS were fabricated with waist diameters of 5–10 μm and total lengths of 1000–1200 μm. The taper regions were coated with 50 nm of gold and housed in a specially constructed holder which served as a flow cell. The TFOBS was immobilized with 15-mer ssDNA with a C6 extension and a thiol group, which attaches to Au〈1 1 1〉 sites. Then, the complementary 10-mer ssDNA samples were allowed to flow in from low to high concentration (750 fM to 7.5 nM) and the resulting transmission changes were recorded. It is shown that 750 fM of complementary DNA can be detected. This sensor was able to distinguish between complementary DNA from DNA with a single nucleotide mismatch in the middle position.
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