folA, a new member of the TyrR regulon in Escherichia coli K-12.

The folA gene was identified as a new member of the TyrR regulon by genomic SELEX. Binding of TyrR to two sites in folA activated its transcription. Mutations in the N-terminal or central domain of TyrR, the alpha subunit of RNA polymerase, or integration host factor all abolished activation of the folA promoter.

The role of the omega subunit of RNA polymerase in expression of the relA gene in Escherichia coli.

The rpoZ gene for the omega subunit of Escherichia coli RNA polymerase constitutes single operon with the spoT gene, which is responsible for the maintenance of stringent response under nutrient starvation conditions. To identify the physiological role of the omega subunit, we compared the gene expression profile of wild-type Escherichia coli with that of an rpoZ deleted strain by microarray analysis using an E. coli DNA chip. Here we report on a set of genes which show changes in expression profile following the removal of rpoZ. We have seen that relA, which is responsible for the synthesis of the stringent factor ppGpp and many ribosomal proteins, exhibited noticeable changes in mRNA levels and were therefore further analyzed for their expression using a GFP/RFP two-fluorescent protein promoter assay vector. In the absence of rpoZ, the promoter for the relA gene was severely impaired, but the promoters from the ribosomal protein genes were not affected as much. Taking these results together we propose that the omega subunit is involved in regulation of the relA gene, but induction of the stringently controlled genes in the absence of rpoZ is, at least in part, attributable to a decrease in ppGpp level.

Classification and strength measurement of stationary-phase promoters by use of a newly developed promoter cloning vector.

When an Escherichia coli culture changes from exponential growth to the stationary phase, expression of growth-related genes levels off, while a number of stationary-phase-specific genes are turned on. To gain insight into the growth phase-dependent global regulation of genome transcription, we analyzed the strength and specificity of promoters associated with the stationary-phase genes. For the in vivo assay of promoter activity, 300- to 500-bp DNA fragments upstream from the translation initiation codon were isolated and inserted into a newly constructed doubly fluorescent protein (DFP) vector. The activity of test promoters was determined by measuring the green fluorescent protein (GFP). To avoid the possible influence of plasmid copy number, the level of transcription of reference promoter lacUV5 on the same plasmid was determined by measuring the red fluorescent protein (RFP). Thus, the activities of test promoters could be easily and accurately determined by determining the GFP/RFP ratio. Analysis of the culture time-dependent variation of 100 test promoters indicated that (i) a major group of the stationary-phase promoters are up-regulated only in the presence of RpoS sigma; (ii) the phase-coupled increase in the activity of some promoters takes place even in the absence of RpoS; and (iii) the activity of some promoters increases in the absence of RpoS. This classification was confirmed by testing in vitro transcription by using reconstituted RpoD and RpoS holoenzymes.