Abstract
The effects of magnetic fields on DNA electrophoresis have been studied under the condition of horizontal electric fields and vertical homogeneous magnetic fields. The migration course of DNA bends to the cross-product direction of the electric field and the magnetic field. The electrophoretic distance of the DNA differs between magnetic fields of 0 and 13 T. The decreases in the electrophoretic velocity are discovered under the condition of magnetic fields perpendicular to electric fields. The results are discussed concerning the Lorentz force, and a new separation method for DNAs is suggested.
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