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Transcription Activation at Escherichia coli FNR-Dependent Promoters by the Gonococcal FNR Protein: Effects of a Novel S18F Substitution and Comparisons with the Corresponding Substitution in E. coli FNR

机译：淋球菌FNR蛋白在大肠杆菌FNR依赖的启动子上的转录激活：新型S18F替代的影响以及与大肠杆菌FNR中相应替代的比较

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The Neisseria gonorrhoeae genome encodes a homologue of the Escherichia coli FNR protein (the fumarate and nitrate reductase regulator). Despite its similarity to E. coli FNR, the gonococcal FNR only partially complemented an E. coli fnr mutation. After error-prone PCR mutagenesis of the gonococcal fnr gene, we identified four mutant fnr derivatives carrying the same S18F substitution, and we showed that the mutant FNR could activate transcription from a range of class I and class II FNR-dependent promoters in E. coli. Prompted by the similarities between gonococcal and E. coli FNR, we made changes in gonococcal fnr that created substitutions that are equivalent to previously characterized substitutions in E. coli FNR. First, our experiments showed that cysteine, C116, in the gonococcal FNR, equivalent to C122 in E. coli FNR, is essential, presumably because, as in E. coli FNR, it binds to an iron-sulfur center. Second, the L22H and D148A substitutions in gonococcal FNR were made. These changes are equivalent to the L28H and D154A changes in E. coli FNR, which had been shown to increase FNR activity in the presence of oxygen. We show that the effects of these substitutions in gonococcal FNR are distinct from those of the S18F substitution. Similarly, substitutions in the putative activating regions of gonococcal FNR were made. We show that the activity of gonococcal FNR in E. coli can be increased by transplanting certain activating regions from E. coli FNR. The effects of these substitutions are additive to those due to S18F. From these data, we conclude that the effects of the S18F substitution in gonococcal FNR are distinct from the effects of the other substitutions. S18 is immediately adjacent to one of three N-terminal cysteine residues that coordinate the iron-sulfur center, and thus the S18F substitution is most likely to stabilize this center. Support for this came from complementary experiments in which we created the S24F substitution in E. coli FNR, which is equivalent to the S18F substitution in gonococcal FNR. Our results show that the S24F substitution changes the activity of E. coli FNR and that the changes are distinct from those due to previously characterized substitutions.

机译：淋病奈瑟氏球菌基因组编码大肠杆菌FNR蛋白（富马酸盐和硝酸盐还原酶调节剂）的同源物。尽管它与大肠杆菌FNR相似，但淋球菌FNR仅部分补充了大肠杆菌fnr突变。在对淋球菌的fnr基因进行易错PCR诱变后，我们鉴定了四个带有相同S18F取代的突变fnr衍生物，并且我们表明该突变FNR可以激活E中I类和II类FNR依赖性启动子的转录。大肠杆菌。由淋球菌和大肠杆菌FNR之间的相似性提示，我们对淋球菌fnr进行了更改，从而产生了与大肠杆菌FNR中以前表征的替代相同的替代。首先，我们的实验表明，淋球菌FNR中的半胱氨酸C116等同于大肠杆菌FNR中的C122，这是必不可少的，大概是因为与大肠杆菌FNR中一样，它与铁硫中心结合。其次，在淋球菌FNR中进行L22H和D148A取代。这些变化等同于大肠杆菌FNR中L28H和D154A的变化，已证明在有氧条件下FNR的活性会增加。我们显示，淋球菌FNR中这些取代的作用与S18F取代的作用不同。类似地，在淋球菌FNR的推定活化区域中进行了取代。我们表明，通过从大肠杆菌FNR移植某些激活区域可以提高淋球菌FNR在大肠杆菌中的活性。这些取代的效果与S18F的效果相加。根据这些数据，我们得出结论，淋球菌FNR中S18F替代的作用不同于其他替代的作用。 S18紧邻与铁硫中心配位的三个N端半胱氨酸残基之一，因此S18F取代最有可能稳定该中心。支持这一点的是补充实验，在该实验中我们在大肠杆菌FNR中创建了S24F替代，这等同于淋球菌FNR中的S18F替代。我们的结果表明，S24F取代改变了 E的活性。大肠杆菌FNR，并且这些变化与先前表征的替换不同。 展开▼

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期刊名称 Journal of Bacteriology

作者
Tim Overton; Eleanor G. F. Reid; Robin Foxall; Harry Smith; Stephen J. W. Busby; Jeffrey A. Cole;
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年(卷),期 2003(185),16

年度 2003

页码 4734–4747

总页数 14

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中图分类微生物学;

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专利

1. Transcription Activation at Escherichia coli FNR-Dependent Promoters by the Gonococcal FNR Protein: Effects of a Novel S18F Substitution and Comparisons with the Corresponding Substitution in E. coli FNR [J] . Tim Overton, Eleanor G. F. Reid, Robin Foxall, Journal of bacteriology . 2003,第16期

机译：淋球菌FNR蛋白在大肠杆菌FNR依赖的启动子上的转录激活：新型S18F替代的影响以及与大肠杆菌FNR中相应替代的比较

2. FNR-dependent activation of the class II dmsA and narG promoters of Escherichia coli requires FNR-activating regions 1 and 3. [J] . Lamberg KE, Kiley PJ Molecular Microbiology . 2000,第4期

机译：FNR依赖的大肠杆菌II类dmsA和narG启动子的激活需要FNR激活区域1和3。

3. Suppression of FNR-dependent transcription activation at the Escherichia coli nir promoter by Fis, IHF and H-NS: modulation of transcription initiation by a complex nucleo-protein assembly [J] . Browning DF., Busby SJW., Cole JA. Molecular Microbiology . 2000,第5期

机译：Fis，IHF和H-NS在大肠杆菌nir启动子上抑制FNR依赖性转录激活：通过复杂的核蛋白组装调节转录起始

4. Modeling the effects of compositional context on promoter activity in an E. coli extract based transcription-translation system [C] . Yeung Enoch, Ng Andrew, Jongmin Kim, IEEE Annual Conference on Decision and Control . 2014

机译：在基于大肠杆菌提取物的转录翻译系统中模拟组成环境对启动子活性的影响

5. Dissecting the contributions of proteolysis, iron-sulfur cluster assembly, and transcriptional repression on the regulation of the Escherichia coli transcription factor FNR. [D] . Mettert, Erin Leigh. 2007

机译：剖析蛋白水解，铁硫簇组装和转录抑制对大肠杆菌转录因子FNR调控的贡献。

6. A variant of the Escherichia coli anaerobic transcription factor FNR exhibiting diminished promoter activation function enhances ionizing radiation resistance [O] . Steven T. Bruckbauer, Joseph D. Trimarco, Camille Henry, 2012

机译：表现出启动子激活功能减弱的大肠杆菌厌氧转录因子FNR的变体增强了电离辐射的抵抗力

7. Transcription Activation at Escherichia coli FNR-Dependent Promoters by the Gonococcal FNR Protein: Effects of a Novel S18F Substitution and Comparisons with the Corresponding Substitution in E. coli FNR [O] . Overton, Tim, Reid, Eleanor G. F., Foxall, Robin, 2003

机译：淋球菌FNR蛋白在大肠杆菌FNR依赖的启动子上的转录激活：新型S18F替代的影响以及与大肠杆菌FNR中相应替代的比较

8. Application of neural networks and information theory to the identification of E. coli transcriptional promoters. [R] . K. Abremski K. Sirotkin A. Lapedes 1991

机译：神经网络和信息论在大肠杆菌转录启动子鉴定中的应用。

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2. B36-11 氧对于大肠杆菌ArcA和FNR调控系统和代谢反应的影响Levanon SS等 [J] . 龚家玮 ,胡又佳 . 中国医药工业杂志 . 2005,第4期

3. 调控蛋白CRP和FNR对青霉素G酰化酶基因表达的影响 [J] . 蒋岚 ,杨胜利 . 生物工程学报 . 1995,第002期

4. 克雷伯氏杆菌中FNR氧气调控蛋白三级结构的模建 [J] . 李霞 ,张青瑞 ,曹长青 . 青岛科技大学学报（自然科学版） . 2011,第002期

5. 基因改良大肠杆菌产出新型生物燃料可替代柴油 [J] . 胡晓丽 . 生物加工过程 . 2012,第1期

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7. 氧环境通过FNR蛋白调控大肠杆菌SM10接合反应的机制研究 [A] . 房承才 . 2015

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2. 在乳酸克鲁维酵母中构建和应用基本上缺少大肠杆菌转录能力的乳酸克鲁维酵母启动子变体的方法 [P] . 中国专利： CN1953987A . 2007-04-25

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机译：用于预防或治疗包含Stx2eA-C端片段-Stx2eB-五聚体重组蛋白和含有肠毒素E.Coli的大肠杆菌（表达F4和C4的大肠杆菌）的猪的致病性大肠杆菌病的疫苗组合物。

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Transcription Activation at Escherichia coli FNR-Dependent Promoters by the Gonococcal FNR Protein: Effects of a Novel S18F Substitution and Comparisons with the Corresponding Substitution in E. coli FNR

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