Analysis of the complex transcription termination region of the Escherichia coli rrnB gene.

The complex terminator region of the Escherichia coli rrnB gene was analyzed by subcloning the terminators T1 and T2 and the inverted repeats IR1 and IR2 individually, or in various combinations, in a normal or inverted orientation into a terminator probe vector. The in vivo terminating efficiency was assayed by measuring the galactokinase activity encoded by the downstream galK gene. Termination efficiencies of all fragments were compared in two constructs, differing in the presence or absence of readthrough translation over the investigated terminator signal. The following main conclusions were drawn. (a) T1 and T2 are both efficient terminators in isolated forms. (b) IR1 and IR2 have some terminating effect (much lower than the proper terminators), especially in the inverted orientation. Their presence modifies the effect of the proper terminators in a quite unpredictable way, especially if these regions are translated. (c) The terminators are not symmetrical; in the inverted orientation T1 is practically inactive and T2 termination is reduced. (d) Translation radically decreases the efficiency of the terminators. (e) Several sequences in the rrnB gene, upstream of the terminator region (one in the 16S RNA and one in the 5S RNA coding region), are very efficient in vivo terminators in the inverted orientation.     

Identification of a region of the bacteriophage T3 and T7 RNA polymerases that determines promoter specificity

Bacteriophages T7 and T3 encode DNA-dependent RNA polymerases that are 82% homologous, yet exhibit a high degree of specificity for their own promoters. A region of the RNA polymerase gene (gene 1) that is responsible for this specificity has been localized using two approaches. First, the RNA polymerase genes of recombinant T7 x T3 phage that had been generated in other laboratories in studies of phage polymerase specificity were characterized by restriction enzyme mapping. This approach localized the region that determines promoter specificity to the 3' end of the polymerase gene, corresponding to the carboxyl end of the polymerase protein distal to amino acid 623. To define more closely the region of promoter specificity, a series of hybrid T7/T3 RNA polymerase genes was constructed by in vitro manipulation of the cloned genes. The specificity of the resulting hybrid RNA polymerases in vitro and in vivo indicates that an interval of the polymerase that spans amino acids 674 to 752 (the 674 to 752 interval) contains the primary determinant of promoter preference. Within this interval, the amino acid sequences of the T3 and T7 enzymes differ at only 11 out of 79 positions. It has been shown elsewhere that specific recognition of T3 and T7 promoters depends largely upon base-pairs in the region from -10 to -12. An analysis of the preference of the hybrid RNA polymerases for synthetic T7 promoter mutants indicates that the 674 to 752 interval is involved in identifying this region of the promoter, and suggests that another domain of the polymerase (which has not yet been identified) may be involved in identifying other positions where the two consensus promoter sequences differ (most notably at position -15).