Determination of Cell Dielectric Properties Using Dielectrophoretic Technique

Pikul Wanichapichart^*, Sorawuth Bunthawin, Amnuoy Kaewpaiboon and Kamnoon Kanchanapoom

ABSTRACT: Experiments were carried out on four cell types: Chlorella sp., Tetraselmis sp., and mesophyll protoplasts of Dendrobium and Lilium longiflorum. The speed of cell translation in between a pair of cylindrical electrodes was measured at different solution conductivities (_s). For each field frequency, the speed was plotted against the gradient of electric field squared to obtain the real part Re[f()] of complex permittivity. Conductivity () and permittivity () of the cytoplasm and cell membrane were obtained by iterative method using a spherical single shell model. It was found that membrane permittivity (_m) of plankton cells was fairly large compared to that of mesophyll protoplasts, whereas the reverse was true for membrane conductivity (m). The permittivity of cytoplasm (_c) varied from 105_o to 150_o for plankton and from 83_o to 105_o for the protoplasts. The estimated values for _c ranged from 8 to 40 mS.m^-1 for plankton and from 1 to 20 mS.m^-1 for the protoplasts. The cytoplasmic conductivity (_c) ofthe latter was the same as that of the external medium implying that these mesophyll protoplasts behave like lossy dielectric at _s between 1 mS.m^-1 to 20 mS.m^-1. Possible specific membrane capacitance (Cm) varied from 6 to 12 mF.m^-2 for plankton and from 2 to 31 mF.m^-2 for the protoplasts.

Download PDF

Biophysics, Membrane Science and Technology Research Unit, Department of Physics, Faculty of Science, Prince of Songkla University, Thailand.

* Corresponding author, E-mail: Vpikul@ratree.psu.ac.th

Received 27 Feb 2001, Accepted 14 Nov 2001

Determination of Cell Dielectric Properties Using Dielectrophoretic Technique

Pikul Wanichapichart*, Sorawuth Bunthawin, Amnuoy Kaewpaiboon and Kamnoon Kanchanapoom

Pikul Wanichapichart^*, Sorawuth Bunthawin, Amnuoy Kaewpaiboon and Kamnoon Kanchanapoom