Abstract

To date, the magnetoelastic (ME) biosensor method has not been used for the detection of methicillin-resistant Staphylococcus aureus (MRSA). In this study, we introduced, for the first time, the use of a lytic phage as a novel bio-recognition element for ME biosensors for the detection of MRSA. Optimal conditions for the binding of lytic phage to the ME sensor platform were determined by evaluating different phage concentrations (108–1012pfu/ml) and immobilization times (10, 30, 90, 270, 810, and 2430min). Scanning electron microscopy (SEM) analysis was carried out to examine the phages immobilized on the sensor platforms. The mean free length (MFL) between successive phages was calculated to determine the optimum immobilization time and phage concentration. Different concentrations of bovine serum albumin (BSA) were used to block the spaces between the phages on the sensors. The lytic phage-based ME biosensor method was used to detect MRSA in solution and limit of detection was compared with other biosensor methods. SEM images revealed that the lytic phage immobilized on the sensor platforms had slightly oval heads and relatively long tails. The optimum concentration and immobilization time for efficient binding of the lytic phage to the sensor was determined to be 1011pfu/ml and 30min, respectively, with an MFL of (917±0.080) nm. The optimum concentration of the blocking agent, BSA, was determined to be 1mg/ml, at which the maximum number of MRSA bound on the measurement sensor. Finally, the ME biosensor method was successfully used to detect MRSA with a limit of detection of 3.0logcfu/ml, which was approximately 2log lower than that of the surface plasmon resonance method.

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