Escherichia coli sigma 54 RNA polymerase recognizes Caulobacter crescentus flbG and flaN flagellar gene promoters in vitro
- PMID: 2644197
- PMCID: PMC209600
- DOI: 10.1128/jb.171.1.383-391.1989
Escherichia coli sigma 54 RNA polymerase recognizes Caulobacter crescentus flbG and flaN flagellar gene promoters in vitro
Abstract
A set of the periodically regulated flagellar (fla) genes of Caulobacter crescentus contain conserved promoter sequence elements at -24 and -12 that are very similar to the sequence of the nitrogen assimilation (Ntr) and nitrogen fixation (Nif) promoters of enteric bacteria and Rhizobium spp. Transcription from Ntr and Nif promoters requires RNA polymerase containing sigma 54 instead of the usual sigma 70 and, in the case of the Ntr promoters, is activated by the transcription factors NRI and NRII. We have now demonstrated that the C. crescentus flbG and flaN promoters, which contain the Ntr/Nif type of consensus sequence, are utilized by purified Escherichia coli sigma 54 RNA polymerase (E sigma 54) in the presence of NRI and NRII but not by the purified sigma 70 RNA polymerase (E sigma 70) of E. coli. Oligonucleotide-generated flbG promoter deletions that removed the highly conserved GG dinucleotide at -24 or the GC dinucleotide at -12 or altered the spacing between the -24 and -12 sequence elements prevented utilization of the flbG promoter by the E. coli E sigma 54. Transversions of T to G at positions -26 and -15 also inactivated flbG promoter function in the E. coli cell-free transcription system, while a transition of G to A at position -16 in the nonconserved spacer region had no effect. The C. crescentus flaO and flbF promoters, which do not contain the Ntr/Nif-type promoter consensus sequence, were not utilized by either purified E sigma 54 or E sigma 70 from E. coli. Our results help to define the features of the Ntr/Nif-type consensus sequence required for promoter utilization by purified E. coli E sigma 54 and support the idea that C. crescentus may contain a specialized polymerase with similar promoter specificity required for expression of a set of fla genes.
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