Interaction of RNA polymerase from Escherichia coli with DNA. Effect of temperature and ionic strength on selection of T7 DNA early promoters.

Factors influencing promoter site selection by Escherichia coli RNA polymerase were investigated using T7 DNA as template. The utilization of the three major early promoters A1, A2 and A3, was followed by processing the RNA transcripts with RNAase III, which generates the three corresponding initiator RNA fragments. The three promoters proved to be functionally distinct. A strong differential effect of temperature and ionic strength on promoter selection was observed. The transition temperature of promoters A1, A2 and A3 was measured directly by preincubating, at different temperatures, RNA polymerase and T7 DNA, with primer-substrate combinations which selected each site independently. The transition temperature of the three sites was markedly different. Promoter A3 was used predominantly at low temperature, whereas A1 or A2 promoters were gradually activated by increasing the temperature. The temperature response curves were strongly dependent upon the salt concentration. On the other hand, challenge experiments with rifampicin or poly (inosinic acid) showed that, once preinitiation complexes are formed by incubating RNA polymerase with DNA at 37 degrees C, the three sites A1, A2 and A3 promote chain initiation with equal efficiency and at the same rate.