Studies on the mechanism of enzymatic DNA elongation by Escherichia coli DNA polymerase II.

The mechanism of enzymatic elongation by Escherichia coli DNA polymerase II of a DNA primer, which is annealed to a unique position on the bacteriophage fd viral DNA, has been studied. The enzyme is found to dissociate from the substrate at specific positions on the genome which act as “barriers” to further primer extension. It is believed these are sites of secondary structure in the DNA. When the template is complexed with E. coli DNA binding protein many of these barriers are eliminated and the enzyme remains associated with the same primer-template molecule during extensive intervals of DNA synthesis. Despite the presence of E. coli DNA binding protein, at least one barrier on the fd genome remains rate-limiting to chain extension and disturbs the otherwise processive mechanism of DNA synthesis. This barrier is overcome by increasing the concentration of enzyme.In contrast, it is found that DNA polymerase I is not rate-limited by structural barriers in the template, however, it exhibits a non-processive mechanism of elongation.These findings provide a framework for understanding the necessity for participation of proteins other than a DNA polymerase in chain extension during chromosomal replication.