Title :
Dielectrophoretic measurement of bacterial motor characteristics
Author :
Washizu, Masao ; Kurahashi, Yuichi ; Iochi, Hirokazu ; Kurosawa, Osamu ; Aizawa, Shin-ichi ; Kudo, Seishi ; Magariyama, Yukio ; Hotani, Hirokazu
Author_Institution :
Dept. of Electr. Eng. & Electron., Seikei Univ., Tokyo, Japan
Abstract :
Two methods of measuring bacterial motor characteristics using AC field effects in a microfabricated electrode system are presented. One is the measurement of the external force-velocity characteristics (F-v) of swimming bacteria. Electrostatic orientation of bacteria parallel to the field lines is used to guide the bacterial locomotion along a line. Dielectrophoresis is used to apply an external force, either forward or backward, to the swimming bacteria, and the velocity of locomotion is measured to obtain the F-v curve. The other approach is to measure torque-speed characteristics (T-w) of the motor. Electrorotation is used to apply external torque to the tethered cells, and by changing the applied torque and measuring the rotation speed, the T-ω curve is obtained. The results show that the motor generates approximately constant torque in the measured range of ω (0-100 Hz), regardless of the direction of rotation
Keywords :
bioelectric phenomena; biological effects of fields; cell motility; electrophoresis; electrostatics; 0 to 100 Hz; AC field effects; bacterial locomotion; bacterial motor characteristics; cell motility; dielectrophoretic measurement; electrorotation; electrostatic orientation; force-velocity characteristics; microfabricated electrode system; swimming bacteria; torque-speed characteristics; AC motors; Dielectrophoresis; Electrodes; Electrostatic measurements; Force measurement; Micromotors; Microorganisms; Rotation measurement; Torque measurement; Velocity measurement;
Journal_Title :
Industry Applications, IEEE Transactions on
