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Using an Escherichia coli lac deletion strain lysogenized with a lambda phage carrying a metH-lacZ gene fusion, we isolated trans-acting mutations that result in simultaneous 4- to 6-fold-elevated metH-lacZ expression, 5- to 22-fold-lowered metE-lacZ expression, and 9- to 20-fold-elevated metR-lacZ expression. The altered regulation of these genes occurs in the presence of high intracellular levels of homocysteine, a methionine pathway intermediate which normally inhibits metH and metR expression and stimulates metE expression. P1 transductions and complementation tests indicate that the mutations are in the metR gene. Our data suggest that the mutations result in an altered MetR activator protein that has lost the ability to use homocysteine as a modulator of gene expression.  相似文献   

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The Salmonella typhimurium metE and metR genes share a common control region, with overlapping, divergently transcribed promoters. A double gene fusion was constructed in which the metE promoter directs expression of the Escherichia coli lacZ gene and the metR promoter directs expression of the E. coli galK gene. By using an E. coli strain lysogenized with a lambda bacteriophage carrying the metE-lacZ metR-galK double fusion (lambda Elac.Rgal), two classes of cis-acting mutations were isolated that increase metR-galK expression. The first class of mutations causes a simultaneous decrease in metE-lacZ expression by disrupting the normal MetR-mediated activation of the metE promoter. The mutations are located within a region extending from 17 to 34 base pairs upstream of the -35 region of the metE promoter. Gel mobility shift assays and DNaseI protection experiments demonstrated that the MetR protein specifically binds to a 24-base-pair region encompassing these mutations. The second class of mutations increases metR-galK expression by directly altering the promoter consensus sequences of the metE and metR promoters.  相似文献   

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Sequence analysis of the glyA control region of Escherichia coli identified two regions with homology to the consensus binding sequence for MetR, a lysR family regulatory protein. Gel shift assays and DNase I protection assays verified that both sites bind MetR. Homocysteine, a coregulator for MetR, increased MetR binding to the glyA control region. The MetR binding sites were cloned into the pBend2 vector. Although the DNA did not show any significant intrinsic bend, MetR binding resulted in a bending angle of about 33 degrees. MetR-induced bending was independent of homocysteine. To verify that the MetR binding sites play a functional role in glyA expression, site-directed mutagenesis was used to alter the two binding sites in a lambda glyA-lacZ gene fusion phage. Changing the binding sites toward the consensus MetR binding sequence caused an increase in glyA-lacZ expression. Changing either binding site away from the consensus sequence caused a decrease in expression, suggesting that both sites are required for normal glyA regulation.  相似文献   

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An Escherichia coli S-30 DNA directed protein synthesis system was used to study the effect of homocysteine on the in vitro expression of the metE, metH and metR genes. In the presence of purified MetR protein, which is known to regulate the expression of these genes, homocysteine activates metE expression and inhibits both metR and metH expression. These findings support the recent in vivo results of Urbanowski, M.L. and Stauffer, G.V. (1989), J. Bacteriol. 171, 3277-3281.  相似文献   

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Salmonella typhimurium metE operator-constitutive mutations   总被引:6,自引:0,他引:6  
We used a metE-lacZ fusion phage (lambda Elac) to select for mutants with operator-constitutive mutations in the Salmonella typhimurium metE control region. All of the mutations identified were found to lie within a region containing tandemly-repeating 8-bp palindromes with the consensus sequence 5'-AGACGTCT-3', previously proposed to be the binding region for the metJ-encoded repressor. Lysogens carrying mutant lambda Elac phage exhibit high beta-galactosidase levels that are only partially repressible by methionine. Although repression of metE expression by vitamin B12 is not disrupted in metJ+ lysogens, vitamin B12 repression is disrupted in lysogens lacking an active MetJ repressor. These results suggest that there is an interaction between the metJ-encoded repressor and the vitamin B12 repression system mediated by the metH gene product.  相似文献   

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The vitamin B12 (B12)-mediated repression of the metE gene in Escherichia coli and Salmonella typhimurium requires the B12-dependent transmethylase, the metH gene product. It has been proposed that the MetH-B12 holoenzyme complex is involved directly in the repression mechanism. Using Escherichia coli strains lysogenized with a lambda phage carrying a metE-lacZ gene fusion, we examined B12-mediated repression of the metE-lacZ gene fusion. Although B12 supplementation results in a 10-fold repression of metE-lacZ expression, homocysteine addition to the growth medium overrides the B12-mediated repression. In addition, B12-mediated repression of the metE-lacZ fusion is dependent on a functional MetR protein. When a metB mutant was transformed with a high-copy-number plasmid carrying the metE gene, which would be expected to reduce intracellular levels of homocysteine, metE-lacZ expression was reduced and B12 supplementation had no further effect. In a metJ mutant, B12 represses metE-lacZ expression less than twofold. When the metJ mutant was transformed with a high-copy-number plasmid carrying the metH gene, which would be expected to reduce intracellular levels of homocysteine, B12 repression of the metE-lacZ fusion was partially restored. The results indicate that B12-mediated repression of the metE gene is primarily a loss of MetR-mediated activation due to depletion of the coactivator homocysteine, rather than a direct repression by the MetH-B12 holoenzyme.  相似文献   

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Regulation of methionine synthesis in Escherichia coli   总被引:3,自引:1,他引:2  
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Abstract In Salmonella typhimurium the metE and metR promoters overlap and are divergently transcribed. Three tandem repeats of an 8 bp sequence defined previously as the metE operator site for MetJ-mediated repression also overlap the −35 region of the metR promoter. Starting with a metE-lacZ · metR-galK double gene fusion, site-directed mutagenesis was used to change nucleotides in each of the repeat units from the consensus sequence. Each mutation, along with the wild-type metE-lacZ · metR-galK gene fusion, was cloned into phage λgt2. Regulation of the metE and metR genes was examined by measuring β-galactosidase and galactokinase levels in Escherichia coli strains lysogenized with phage carrying the wild-type and mutant fusions. Mutations in each of the 8 bp repeat units disrupt MetJ-mediated repression for both the metE-lacZ and metR-galK gene fusions, suggesting that the metE and metR genes share a common operator site for the MetJ repressor.  相似文献   

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Promoter elements important for basal and cyclic AMP (cAMP)-regulated expression of the phosphoenolpyruvate carboxykinase (PEPCK) gene have been identified by analysis of a series of PEPCK promoter mutations in transfection experiments. Fusion genes containing wild-type and mutated PEPCK promoter sequences from -600 to +69 base pairs (bp) fused to the coding sequence for chloramphenicol acetyltransferase were studied. Internal deletion mutations that replaced specific bases with a 10-bp linker within the region from -129 bp to -18 bp of the PEPCK promoter were examined. In addition, wild-type and mutated DNA templates were used as probes in DNase I protection experiments to determine sites of protein-DNA interaction. The PEPCK promoter contains a binding site for nuclear factor 1-CAAT. Deletion of the 5' end of this binding site reduced the size of the DNase I footprint in this region but had no effect on promoter activity. In contrast, deletion or disruption of the 3' end of this binding site completely eliminated protein binding and reduced promoter activity by 50%. Deletion of core sequences of the cAMP regulatory element (CRE) resulted in loss of cAMP responsiveness and an 85% decrease in basal promoter activity, indicating that the CRE also functions as a basal stimulatory element. Mutation of the core sequence of the CRE resulted in loss of the DNase I footprint over the CRE. Internal deletions flanking the CRE showed no loss of induction by cAMP but did have reduced promoter activity. This delimits the CRE to an 18-bp region between nucleotides -100 and -82. Analysis of mutations that disrupted bases between the CRE and the initiation site identified a basal inhibitory element adjacent to a basal stimulatory element, both located just 3' of the CRE, as well as a basal stimulatory element coincident with the TATA consensus sequence centered at -27. These data demonstrate that several cis-acting elements are located within 130 nucleotides of the initiation site of the PEPCK gene and that the CRE is essential for both basal promoter activity and cAMP-regulated expression of this gene.  相似文献   

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