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In a previous report it had been suggested that the tyrP gene of Escherichia coli may be expressed from two separate promoters. We have endeavored to confirm this suggestion by primer extension studies and the separate subcloning of each of these promoters. In these studies, we found a single promoter whose expression was repressed by TyrR protein in the presence of tyrosine and activated by TyrR protein in the presence of phenylalanine. Two adjacent TYR R boxes, with the downstream one overlapping the tyrP promoter, are the likely targets for the action of TyrR protein. Mutational analysis showed that both TYR R boxes were required for tyrosine-mediated repression but that only the upstream box was required for phenylalanine-mediated activation. In vitro DNase protection studies established that whereas in the absence of tyrosine TyrR protein protected the region of DNA represented by the upstream box, at low TyrR protein concentrations both tyrosine and ATP were required to protect the region of DNA involving the downstream box and overlapping the RNA polymerase binding site.  相似文献   

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P Wang  J Yang  B Lawley    A J Pittard 《Journal of bacteriology》1997,179(13):4213-4218
The repression of aroP expression which is mediated by the TyrR protein with phenylalanine, tyrosine, or tryptophan has been shown to be primarily a direct result of TyrR-mediated activation of a divergent promoter, P3, which directs the RNA polymerase away from promoter P1. Evidence which has been presented to support this conclusion is as follows. Repression of P1 does not occur either in vitro or in vivo if wild-type TyrR protein is substituted by the activation-negative mutant RQ10 (with an R-to-Q change at position 10). Repression of P1 is greatly diminished if the P3 promoter is inactivated or if a 5-bp insertion is made between the P3 promoter and the binding sites for TyrR. Repression is also abolished if the promoter strength of P1 is increased or a putative UP element associated with P3 is altered. Repression of the second promoter, P2, still occurs if the wild-type TyrR protein is substituted with RQ10 or EQ274. The tryptophan-mediated repression of aroP does not involve the TrpR protein.  相似文献   

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In Escherichia coli , genetic regulation of aromatic amino acid biosynthesis and uptake is effected by the protein TyrR, which acts via ligand-mediated repression and activation. Characterization of the interactions of tyrosine, phenylalanine and tryptophan with TyrR revealed the presence of two separate aromatic amino acid-binding sites, one ATP-dependent, the other ATP-independent. Binding to the ATP-dependent site induces the self-association of TyrR. Using sedimentation equilibrium analyses, dissociation constants for this site in the dimeric and hexameric forms of TyrR were determined to be 330 μM and 24 μM, respectively, for tyrosine, and 55 mM and 3.7 mM, respectively, for phenylalanine. Tryptophan bound with a strength similar to that of phenylalanine, and both phenylalanine and tryptophan competed with the binding of tyrosine. The ATP-independent site, which has not been observed previously, was characterized by ultraviolet (u.v.) difference spectroscopy and a sedimentation-velocity meniscus-depletion method. Phenylalanine bound co-operatively to this site, exhibiting half-saturation at 260 µM. Tryptophan competed weakly with phenylalanine, half-saturation occurring at 1.2 mM. No binding of tyrosine to this site could be detected. We propose that the binding of phenylalanine or tryptophan to this ATP-independent site is responsible for phenylalanine- and tryptophan-mediated regulation by TyrR.  相似文献   

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In Escherichia coli K-12, the repression of tyrP requires the binding of the TyrR protein to the operator in the presence of coeffectors, tyrosine and ATP. This operator contains two 22-bp palindromic sequences which are termed TyrR boxes. Methylation, uracil, and ethylation interference experiments were used to identify the important sites in the TyrR boxes that make contacts with the TyrR protein. Methylation interference studies demonstrated that guanines at positions +8, -5, and -8 of the strong TyrR box and positions +8, -4, and -8 of the weak box are close to the TyrR protein. Uracil interference revealed that strong van der Waals contacts are made by the thymines at position -7 and +5 of the top strands of both strong and weak boxes and that weaker contacts are made by the thymines at positions +7 (strong box) and -5 and +7 (weak box) of the bottom strand. In addition, ethylation interference suggested that the phosphate backbone contacts are located at the end and central regions of the palindrome. These findings are supported by our results derived from studies of symmetrical mutations of the tyrP strong box. Overall, the results confirm the critical importance of the invariant (G x C)(C x G)8 base pairs for TyrR recognition and also indicate that interactions with (T x A)(A x T)7 are of major importance. In contrast, mutations in other positions result in weaker effects on the binding affinity of TyrR protein, indicating that these positions play a lesser role in TyrR protein recognition. Alanine scanning of both helices of the putative helix-turn-helix DNA-binding motif of TyrR protein has identified those amino acids whose side chains play an essential role in protein structure and DNA binding.  相似文献   

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In the presence of tyrosine, the TyrR protein of Escherichia coli represses the expression of the tyrP gene by binding to the double TyrR boxes which overlap the promoter. Previously, we have carried out methylation, uracil, and ethylation interference experiments and have identified both guanine and thymine bases and phosphates within the TyrR box sequences that are contacted by the TyrR protein (J. S. Hwang, J. Yang, and A. J. Pittard, J. Bacteriol. 179:1051-1058, 1997). In this study, we have used missing contact probing to test the involvement of all of the bases within the tyrP operator in the binding of TyrR. Our results indicate that nearly all the bases within the palindromic arms of the strong and weak boxes are important for the binding of the TyrR protein. Two alanine-substituted mutant TyrR proteins, HA494 and TA495, were purified, and their binding affinities for the tyrP operator were measured by a gel shift assay. HA494 was shown to be completely defective in binding to the tyrP operator in vitro, while, in comparison with wild-Type TyrR, TA495 had only a small reduction in DNA binding. Missing contact probing was performed by using the purified TA495 protein, and the results suggest that T495 makes specific contacts with adenine and thymine bases at the +/-5 positions in the TyrR boxes.  相似文献   

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The promoter-operator region of the aroL gene of Escherichia coli K-12 contains three TYR R boxes and one TrpR binding site. Mutational analysis showed that TYR R boxes 1 and 3 are essential for TyrR-mediated regulation of aroL expression, while a fully functional TYR R box 2 does not appear to be essential for regulation. Regulation mediated by the TrpR protein required the TYR R boxes and TrpR site to be functional and was observed in vivo only with a tyrR+ strain. Under conditions favoring the formation of TyrR hexamers, DNase I protection experiments revealed the presence of phased hypersensitive sites, indicative of DNA backbone strain. This suggests that TyrR-mediated repression involves DNA looping. Purified TrpR protein protected the putative TrpR binding site in the presence of tryptophan, and this protection was slightly enhanced in the presence of TyrR protein. This result along with the in vivo findings implies that TyrR and TrpR are able to interact in some way. Inserting 4 bp between TYR R box 1 and the TrpR binding site results in increased tyrosine repression and the abolition of the tryptophan effect. Identification of a potential integration host factor binding site and repression studies of a himA mutant support the notion that integration host factor binding normally exerts a negative effect on tyrosine-mediated repression.  相似文献   

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Expression of the mtr gene, which encodes a tryptophan-specific transport system in Escherichia coli K-12, is activated by the TyrR protein. Two TyrR protein binding sites (TYR R boxes) are positioned upstream of the -35 promoter region. Mutational and DNase protection studies indicate that TyrR protein binds preferentially to the TYR R box closest to the promoter, and this is essential for activation of gene expression. In the presence of tyrosine and ATP, a second TyrR molecule is able to cooperatively bind to the second box and cause a further increase in the level of activation.  相似文献   

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Site-directed mutagenesis has been used to further characterize amino acid residues necessary for the activation of gene expression by the TyrR protein. Amino acid substitutions have been made at positions 2, 4, 5, 6, 7, 8, 9, 10, and 16. TyrR mutants with amino acid substitutions V-5-->P (VP5), VF5, CS7, CR7, DR9, RI10, RS10, and ER16 show no or very little activation of expression of either mtr or tyrP. In each case, however, the ability to repress aroF is unaltered. Amino acid substitutions at positions 4, 6, and 8 have no effect on activation. Small internal deletions of residues 10 to 19, 20 to 29, or 30 to 39 also destroy phenylalanine- or tyrosine-mediated activation of mtr and tyrP. In these mutants repression of aroF is also unaltered. In activation-defective tyrR mutants, expression of mtr is repressed in the presence of tyrosine. This tyrosine-mediated repression is trpR dependent and implies an interaction between TrpR and TyrR proteins in the presence of tyrosine.  相似文献   

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大肠杆菌tyrR基因剔除及其对苯丙氨酸生物合成的影响   总被引:1,自引:0,他引:1  
TyrR是大肠杆菌芳香族氨基酸生物合成和运输途径中的一种全局性调控蛋白质。采用双交换同源重组的方法定位突变大肠杆菌染色体tyrR基因 ,在该基因中插入带有卡那霉素抗性基因的DNA片段 ,使之失活 ,实现基因剔除。经PCR、DNA测序、lacZ报告基因等多种方法证实了基因剔除的可靠性。tyrR基因剔除后 ,大肠杆菌芳香族氨基酸生物合成中受TyrR蛋白调控的关键酶的酶活力有所提高 :3 脱氧 2 阿拉伯庚酮糖 7 磷酸合成酶(DAHPS ,由aroG编码 )酶活力提高了 1.0 8倍 ,转氨酶 (AT ,由tyrB编码 )酶活力提高了 2 .70倍 ;突变菌株发酵生产苯丙氨酸的能力提高了 1.5 9倍 ;同时 ,与芳香族氨基酸运输相关的通透酶基因aroP(P)的阻遏被解除 ,细胞运输芳香族氨基酸的能力提高了 70 .2 %。  相似文献   

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Tyrosine-mediated repression of aroF and tyrP was studied by inserting DNA sequences between the two adjacent TYR R boxes which, in each case, overlap the respective RNA polymerase binding sites of these genes. In both cases, repression was greatest when homologous regions of these two TYR R boxes were on the same face of the DNA helix and the boxes were directly adjacent. An insertion of 3 bases was sufficient to abolish repression, which was reestablished as the boxes became separated by one full turn of the helix. These observations, coupled with the results of in vitro DNase I protection studies, supported the hypothesis that the binding of TyrR protein to the downstream boxes required cooperative interaction with TyrR protein already bound to the upstream boxes. In the case of tyrP, moving the upstream box also affected activation. Maximal activation was observed when the box was moved 3 or 12 to 14 residues upstream. Practically no activation was seen at intermediate positions, such as +7 and -4. It is hypothesized that these results indicate positions allowing maximal interaction between TyrR protein bound to the upstream box and RNA polymerase bound to the RNA polymerase binding site.  相似文献   

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