Detection of Bacillus anthracis spores and a model protein using PEMC sensors in a flow cell at 1 mL/min.

Piezoelectric-excited millimeter-sized cantilever (PEMC) sensors of 4mm(2) sensing area were immobilized with antibody specific to Bacillus anthracis (anti-BA) spores or bovine serum albumin (anti-BSA). Detection of pathogen (Bacillus anthracis (BA) at 300 spores/mL) and BSA (1 mg/mL) were investigated under both stagnant and flow conditions. Two flow cell designs were evaluated by characterizing flow-induced resonant frequency shifts. One of the flow cells labeled SFC-2 (hold-up volume of 0.3 mL), showed small fluctuations (+/-20 Hz) around a common resonant frequency response of 217 Hz in the flow rate range of 1-17 mL/min. The total resonant frequency change obtained for the binding of 300 spores/mL in 1h was 90+/-5 Hz (n=2), and 162+/-10 Hz (n=2) under stagnant and flow conditions, respectively. Binding of antibodies, anti-BA and anti-BSA, were more rapid under flow than under stagnant conditions. The sensor was repeatedly exposed to BSA with an intermediate release step. The first and second responses to BSA were nearly identical. The total resonant frequency response to BSA was 388+/-10 (n=2) Hz under flow conditions. Kinetic analysis is carried out to quantify the effect of flow rate on antibody immobilization and the two types of detection experiments.

[1]  Raj Mutharasan,et al.  Piezoelectric-excited millimeter-sized cantilever (PEMC) sensors detect Bacillus anthracis at 300 spores/mL. , 2006, Biosensors & bioelectronics.

[2]  Raj Mutharasan,et al.  Escherichia coli O157:H7 detection limit of millimeter-sized PZT cantilever sensors is 700 cells/mL. , 2005, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry.

[3]  Edward P. C. Lai,et al.  Interaction of ochratoxin A with molecularly imprinted polypyrrole film on surface plasmon resonance sensor , 2005 .

[4]  T. Naik,et al.  Dynamic response of a cantilever in liquid near a solid wall , 2003 .

[5]  Norio Miura,et al.  Compact surface plasmon resonance (SPR) immunosensor using multichannel for simultaneous detection of small molecule compounds , 2005 .

[6]  Thomas Thundat,et al.  Glucose biosensor based on the microcantilever. , 2004, Analytical chemistry.

[7]  K. Schleifer,et al.  Microbiological safety of drinking water. , 2000, Annual review of microbiology.

[8]  G. Campbell,et al.  Monitoring of the self-assembled monolayer of 1-hexadecanethiol on a gold surface at nanomolar concentration using a piezo-excited millimeter-sized cantilever sensor. , 2005, Langmuir : the ACS journal of surfaces and colloids.

[9]  Raj Mutharasan,et al.  Detection of pathogen Escherichia coli O157:H7 using self-excited PZT-glass microcantilevers. , 2005, Biosensors & bioelectronics.

[10]  I. Park,et al.  Application of a flow-type antibody sensor to the detection of Escherichia coli in various foods. , 2003, Biosensors & bioelectronics.

[11]  Raj Mutharasan,et al.  Detection and quantification of proteins using self-excited PZT-glass millimeter-sized cantilever. , 2005, Biosensors & bioelectronics.

[12]  Y. Okahata,et al.  A versatile planar QCM-based sensor design for nonlabeling biomolecule detection. , 2002, Analytical chemistry.

[13]  F. Elmer,et al.  Eigenfrequencies of a rectangular atomic force microscope cantilever in a medium , 1997 .