Transformation of E. coli using homopolymer-linked plasmid chimeras.

A number of parameters were explored to increase the transformation efficiency of E. coli with pBR322/eukaryotic DNA chimera, formed via d(A) . d(T) and d(G) . d(C) homopolymer tails. Of the E. coli strains analyzed, E. coli strain RR1 was the most efficient bacterial host. A clear optimum of nucleotide tail length existed for both types of homopolymer. The optimum hybridization temperature for chimera formation was found to be approx. 57 degrees C. In the case of d(A) . d(T)-linked chimeras, 30 min was sufficient for optimum chimera formation. In contrast, d(C) . d(G)-linked chimeras required up to 2 h to give the best yields (as measured by transformation efficiency). Other minor factors affecting the transformation process are also explored and discussed.