Heat shock and osmotically dependent steps by DNA uptake after Escherichia coli electroporation.

Currently, the major problem in the genetic transformation is to understand how such a large molecule as the plasmid DNA passes through the cell membrane. To solve this problem we used a simplified experimental model with Escherichia coli and the plasmid pBR322: the DNA-bacteria mixture was electroporated in a sucrose solution at 0 degree C and at fixed electrical parameters; the samples were then directly plated into agar. It was found that the electrically-induced bacterial transformation after pulsing is dependent on two factors: heat shock (delta T) and osmotic stress. Our results indicate that two mechanisms contribute to these effects: (i) thermodiffusion of the DNA across the membrane and (ii) osmotic flows of the medium, containing the DNA, into the interior of the cell.