Abstract
In this paper the performance of a magnetoelastic biosensor detection system for the simultaneous identification of B. anthracis spores and S. typhimurium was investigated. This system was also designed for selective in-situ detection of B. anthracis spores in the presence a mixed microbial population. The system was composed of a reference sensor (devoid of phage), an E2 phage sensor (coated with phage specific to S. typhimurium) and a JRB7 phage sensor (coated with phage specific to B. anthracis spores). When cells/spores are bound to the specific phage-based ME biosensor surface, only the resonance frequency of the specific sensor changed. The instantaneous response of the multiple sensor system was studied by exposing the system to B. anthracis spores and S. typhimurium suspensions sequentially. A detection limit of 1.6×10<sup>3</sup> cfu/mL and 1.1×10<sup>3</sup> cfu/m was observed for JRB7 phage sensor and E2 phage sensor, respectively. Additionally, the performance of the system was also evaluated by exposure to a flowing mixture of B. anthracis spores (5×10<sup>1</sup>-5×10<sup>8</sup> cfu/ml) in the presence of B. cereus spores (5×10<sup>7</sup> cfu/ml). Only the JRB7 phage biosensor responded to the B. anthracis spores. Moreover, there was no appreciable frequency change due to non-specific binding when other microorganisms (spores) were in the mixture. A detection limit of 3×10<sup>2</sup> cfu/mL was observed for JRB7 phage sensor. The results show that the multi-sensor detection system offers good performance, including good sensitivity, selectivity and rapid detection.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call