Mutational analysis of the Myxococcus xanthus Omicron4499 promoter region reveals shared and unique properties in comparison with other C-signal-dependent promoters

The bacterium Myxococcus xanthus undergoes multicellular development during times of nutritional stress and uses extracellular signals to coordinate cell behavior. C-signal affects gene expression late in development, including that of Omega4499, an operon identified by insertion of Tn5 lac into the M. xanthus chromosome. The Omega4499 promoter region has several sequences in common with those found previously to be important for expression of other C-signal-dependent promoters. To determine if these sequences are important for Omega4499 promoter activity, the effects of mutations on expression of a downstream reporter gene were tested in M. xanthus. Although the promoter resembles those recognized by Escherichia coli sigma(54), mutational analysis implied that a sigma(70)-type sigma factor likely recognizes the promoter. A 7-bp sequence known as a C box and a 5-bp element located 6 bp upstream of the C box have been shown to be important for expression of other C-signal-dependent promoters. The Omega4499 promoter region has C boxes centered at -33 and -55 bp, with 5-bp elements located 7 and 8 bp upstream, respectively. A multiple-base-pair mutation in any of these sequences reduced Omega4499 promoter activity more than twofold. Single base-pair mutations in the C box centered at -33 bp yielded a different pattern of effects on expression than similar mutations in other C boxes, indicating that each functions somewhat differently. An element from about -81 to -77 bp exerted a twofold positive effect on expression but did not appear to be responsible for the C-signal dependence of the Omega4499 promoter. Mutations in sigD and sigE, which are genes that encode sigma factors, reduced expression from the Omega4499 promoter. The results provide further insight into the regulation of C-signal-dependent genes, demonstrating both shared and unique properties among the promoter regions so far examined.     

Deletion analysis of the mouse alpha 1(III) collagen promoter.

A chimeric gene was constructed by fusing the DNA sequences containing the 5' flanking region of the mouse alpha 1(III) collagen gene to the coding sequence of the bacterial chloramphenicol acetyltransferase (CAT) gene. Transient transfection experiments indicated that the alpha 1(III) promoter is active in NIH 3T3 fibroblasts and BC3H1 smooth muscle cells. The activity of the alpha 1(III) collagen promoter-CAT plasmid is stimulated approximately ten fold by the presence of the SV40 enhancer element. Removing sequences upstream of -200 stimulates the activity of the chimeric gene eight fold. Further deletion analysis identified sequences located between -350 and -300 that were instrumental in repressing the activity of the promoter. This 50 bp region contains a direct repeat sequence that may be involved in the regulation of the mouse alpha 1(III) collagen gene. Truncating the alpha 1(III) promoter to -80 further stimulated expression. We propose that the positive regulatory elements of this gene appear to be located within the first 80 bp of the promoter, whereas elements located further upstream exert a negative effect on the expression of the gene. Regulation of the alpha 1(III) gene contrasts with that of the alpha 2(I) collagen gene, which appears to be regulated by several positive elements located in various regions of the promoter.     

Molecular analysis of the promoter region of the Escherichia coli K-12 phoE gene. Identification of an element, upstream from the promoter, required for efficient expression of phoE protein

The phoE gene of Escherichia coli codes for an outer membrane pore protein whose expression is induced under phosphate limitation. The promoter of this gene contains a 17 base-pair fragment, designated a pho box, which is present also in other phosphate-controlled promoters. The mRNA start site was determined and found to be located downstream from the pho box, such that this element is located in the -35 region of the phoE promoter. A set of promoter deletions was generated in vitro and analysis of these deletions revealed that sequences upstream from the pho box are required for the efficient expression of phoE. The required upstream region is located (in part) between positions -106 and -121 relative to the mRNA start site, and contains sequences homologous to a pho box and a correctly spaced Pribnow box, but in the reversed orientation relative to the regular -35 and -10 regions. A proper spacing between this upstream region and the -35 region appears to be important, since an oligonucleotide insertion in the intervening region interferes with phoE expression. By cloning the upstream region in a lacZ operon fusion vector, a weak phosphate limitation-inducible promoter activity could be detected.