Effect of one-dimensional pulsed-field gel electrophoresis on linear and circular DNA

The velocity and orientation of T4 and X DNA have been measured for the first 20 s during pulsed-field gel electrophoresis in order to clarify the DNA motions that occur. For a square pulse with field strength E = 10 V/cm, the velocity of X DNA increases gradually to 10.5 pm/s in 1.0 s, declines to

## Abstract The position and velocity of a band of double‐stranded, linear DNA from bacteriophage G were measured during 120° pulsed‐field gel electrophoresis, using a video micrometer. Both the __x__ and __y__ coordinates were determined simultaneously in the plane of a 1% agarose gel; __x__ is th

## Abstract The instantaneous position and velocity of bands of linear, double‐stranded DNA were measured during 120° pulsed‐field electrophoresis in 1% agarose gels, using a video micrometer capable of simultaneous measurements in two dimensions. When the direction of the field was switched, the b

## Abstract The effect of solid friction between DNA molecules and gel fibres during gel electrophoresis has been studied using Brownian dynamics simulations. To investigate the effect of the topology of the polyelectrolyte chains, we have studied both linear and circular molecules. The results sho

We study the effect of electric field intensity and agarose gel concentration on the anomalous electrophoretic mobility recently predicted. by the biased reptation model and experimentally observed for linear DNA fragments electrophoresed in continuous electric fields. We show that high fields and l