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Structure and function of the internal promoter (hisBp) of the Escherichia coli K-12 histidine operon
No full textThe entire histidine operon of Escherichia coli K-12 was cloned in the vector plasmid pBR313, and a complete restriction map of the operon was determined. By using subclones, complementation tests, and enzyme assays, we were able to make a correlation between the physical map and the genetic map of the operon. We determined the sequence of a fragment of DNA 665 base pairs long, comprising the distal portion of the hisC gene, the proximal portion of the hisB gene, and the internal transcription initiation site hisBp. The efficiency of this promoter was assessed under different physiological conditions by cloning the DNA fragment in a recombinant vector system used to study transcriptional regulatory signals. The precise point at which transcription initiates was determined by S1 nuclease mapping
Control of mRNA processing and decay in prokaryotes
No full textPost-transcriptional mechanisms operate in regulation of gene expression in bacteria, the amount of a given gene product being also dependent on the inactivation rate of its own message. Moreover, segmental differences in mRNA stability of polycistronic transcripts may be responsible for differential expression of genes clustered in operons. Given the absence of 5' to 3' exoribonucleolytic activities in prokaryotes, both endoribonucleases and 3' to 5' exoribonucleases are involved in chemical decay of mRNA. As the 3' to 5' exoribonucleolytic activities are readily blocked by stem-loop structures which are usual at the 3' ends of bacterial messages, the rate of decay is primarily determined by the rate of the first endonucleolytic cleavage within the transcripts, after which the resulting mRNA intermediates are degraded by the 3' to 5' exoribonucleases. Consequently, the stability of a given transcript is determined by the accessibility of suitable target sites to endonucleolytic activities. A considerable number of bacterial messages decay with a net 5' to 3' directionality. Two different alternative models have been proposed to explain such a finding, the first invoking the presence of functional coupling between degradation and the movement of the ribosomes along the transcripts, the second one implying the existence of a 5' to 3' processive '5' binding nuclease'. The different systems by which these two current models of mRNA decay have been tested will be presented with particular emphasis on polycistronic transcripts
Structure and function of the Salmonella typhimurium and Escherichia coli K-12 histidine operons
No full textWe have determined the complete nucleotide sequence of the histidine operons of Escherichia coli and of Salmonella typhimurium. This structural information enabled us to investigate the expression and organization of the histidine operon. The proteins coded by each of the putative histidine cistrons were identified by subcloning appropriate DNA fragments and by analyzing the polypeptides synthesized in minicells. A structural comparison of the gene products was performed. The histidine messenger RNA molecules produced in vivo and the internal transcription initiation sites were identified by Northern blot analysis and S1 nuclease mapping. A comparative analysis of the different transcriptional and translational control elements within the two operons reveals a remarkable preservation for most of them except for the intercistronic region between the first (hisG) and second (hisD) structural genes and for the rho-independent terminator of transcription at the end of the operon. Overall, the operon structure is very compact and its expression appears to be regulated at several levels
Gene structure in the histidine operon of Escherichia coli. Identification and nucleotide sequence of the hisB gene.
No full textThe bifunctional enzyme imidazoleglycerolphosphate dehydratase and histidinolphosphate phosphatase is encoded by the hisB gene. The fourth gene of the histidine operon, hisB, was cloned and mapped on a 2,300 base pair DNA fragment. In the present study we report the complete nucleotide sequence of the hisB gene of Escherichia coli. The gene is 1,068 nucleotides long and codes for a protein of 355 amino acids with an apparent molecular weight of 39,998 daltons. The protein product(s) of the hisB region of both Salmonella typhimurium and E. coli were identified by subcloning and expression in an in vitro translation system. In both organisms the hisB gene directed the synthesis of a single protein with an apparent molecular weight of 40,500 daltons, consistent with the data derived from the nucleotide sequence analysi
Nucleotide sequence of Escherichia coli hisD gene and of Escherichia coli and Salmonella typhimurium hisIE region
No full textIn this paper we report the nucleotide sequence of the hisD gene of Escherichia coli and of the his IE region of both E. coli and Salmonella typhimurium. The hisD gene codes for a bifunctional enzyme, L-histidinol:NAD+ oxidoreductase, of 434 amino acids with a molecular mass of 46,199 daltons. We established that the hisIE region of both S. typhimurium and E. coli is composed of a single gene and not, as previously believed, of two separate genes. The derived amino acid sequence indicates that the hisIE gene codes for a bifunctional protein of 203 amino acids with an approximate molecular mass of 22,700 daltons. We also determined the nucleotide sequence of a deletion mutant in S. typhimurium which abolishes the hisF and hisI functions but retains the hisE function. We deduced that the mutant produces a chimeric protein fusing the aminoterminal region of the upstream hisF gene to the carboxyl-terminal domain of the hisIE gene which encodes for the hisE function. In view of these results the structural and functional organization of the histidine operon in enteric bacteria needs to be revised. The operon is composed of only 8 genes and the pathway leading to the biosynthesis of the amino acid requires 11 enzymatic steps
Features of the Rho-dependent transcription termination polar element within the hisG cistron of Salmonella typhimurium
No full textPrevious genetic analysis showed that the polar effects of mutations in the hisG cistron of Salmonella typhimurium are dependent on the presence of a single putative transcription termination element within the hisG gene. In fact, all proximal mutations causing translation termination are strongly polar, whereas distal ones are not. The element was mapped by isolating mutations able to relieve the polar phenotype, and they were found to be small deletions in the region downstream of the translational stop codon (M. S. Ciampi and J. R. Roth, Genetics 118:193-202, 1988). In this study, we analyzed the his-specific RNAs synthesized in vivo in different strains harboring the polar frameshift hisG2148 mutation. The nature of the polarity effects is clearly transcriptional, since shorter RNA molecules were produced. When the hisG2148 mutation was transferred in a rho background or in strains harboring the small distal deletions, an increase in readthrough transcription was observed. The transcriptional termination element was characterized in more detail by performing high-resolution S1 nuclease mapping experiments. This analysis showed that (i) termination or exonucleolytic degradation following termination produced transcripts with heterogeneous 3' ends; (ii) this process is dependent on the transcription termination factor Rho, since relief of termination occurs in a rho background; and (iii) the element appears to function as a transcription terminator, at least to some extent, even in the course of active translation of the hisG cistron
A consensus motif common to all Rho-dependent prokaryotic transcription terminators
No full textWe have characterized at the molecular level several polar mutations in four different cistrons of the his operon of S. typhimurium. An analysis of the his-specific transcripts produced in vivo in the mutant strains, together with in vitro transcription assays, led to the identification of several cryptic Rho-dependent transcription termination elements within the his operon that are activated by the uncoupling of transcription and translation. Common features of these elements were sought and found with a computer program. We have identified a consensus motif, consisting of a cytosine-rich and guanosine-poor region, that is located upstream of the heterogeneous 3' endpoints of the prematurely terminated in vivo transcripts and that is present in all the Rho-dependent transcription terminators described thus far
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