“Host Shutoff” Function of Bacteriophage T7: Involvement of T7 Gene 2 and Gene 0.7 in the Inactivation of Escherichia coli RNA Polymerase

Abstract

The host shutoff function of bacteriophage T7 involves an inactivation of the host E. coli RNA polymerase by an inhibitor protein bound to the enzyme. When this inhibitor protein, termed I protein, was removed from the inactive RNA polymerase complex prepared from T7-infected cells by glycerol gradient centrifugation in the presence of 1 M KCl, the enzyme recovered its activity equivalent to about 70-80% of the activity of the enzyme from uninfected cells. Analysis of the activity of E. coli RNA polymerase from E. coli cells infected with various T7 mutant phages indicated that the T7 gene 2 codes for the inhibitor I protein. The activity of E. coli RNA polymerase from gene 2 mutant phage-infected cells, which was about 70% of that from uninfected cells, did not increase after glycerol gradient centrifugation in the presence of 1 M KCl, indicating that the salt-removable inhibitor was not present with the enzyme. The reduction in E. coli RNA polymerase activity in cells infected with T7+ or gene 2 mutant phage, i.e., about 70% of the activity of the enzyme compared to that from uninfected cells after glycerol gradient centrifugation in the presence of 1 M KCl, results from the function of T7 gene 0.7 E. coli RNA polymerase from gene 0.7 mutant phage-infected cells was inactive but recovered a full activity equivalent to that from uninfected cells after removal of the inhibitor I protein with 1 M KCl. E. coli RNA polymerase from the cells infected with newly constructed mutant phages having mutations in both gene 2 and gene 0.7 retained the full activity equivalent to that from uninfected cells with or without treatement of the enzyme with 1 M KCl. Apparently, both gene 2 and gene 0.7 of T7 are involved in accomplishing complete shutoff of the host E. coli RNA polymerase activity in T7 infection.