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大肠杆菌氮调节蛋白I(NtrC)调节结构域中高度保守残基的改变。

Alterations of highly conserved residues in the regulatory domain of nitrogen regulator I (NtrC) of Escherichia coli.

作者信息

Moore J B, Shiau S P, Reitzer L J

机构信息

Program in Molecular and Cell Biology, University of Texas at Dallas, Richardson 75083-0688.

出版信息

J Bacteriol. 1993 May;175(9):2692-701. doi: 10.1128/jb.175.9.2692-2701.1993.

DOI:10.1128/jb.175.9.2692-2701.1993
PMID:8097516
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC204572/
Abstract

Transcription of many nitrogen-regulated (Ntr) genes requires the phosphorylated form of nitrogen regulator I (NRI, or NtrC), which binds to sites that are analogous to eukaryotic enhancers. A highly conserved regulatory domain contains the site of phosphorylation and controls the function of NRI. We analyzed the effects of substitutions in highly conserved residues that are part of the active site of phosphorylation of NRI in Escherichia coli. Fourteen substitutions of aspartate 54, the site of phosphorylation, impaired the response to nitrogen deprivation. Only one of these variants, NRI D-54-->E (NRI-D54E), could significantly stimulate transcription from glnAp2, the major promoter of the glnALG operon. Cells with this variant grew with arginine as a nitrogen source. Experiments with purified components showed that unphosphorylated NRI-D54E stimulated transcription. In contrast, substitutions at aspartate 11 were not as deleterious as those at aspartate 54. Finally, we showed that NRI-K103R, in which arginine replaces the absolutely conserved lysine, is functionally active and efficiently phosphorylated. This substitution appears to stabilize the phosphoaspartate of NRI. The differences between our results and those from study of homologous proteins suggest that there may be significant differences in the way highly conserved residues participate in the transition to the activated state.

摘要

许多氮调控(Ntr)基因的转录需要氮调节因子I(NRI,即NtrC)的磷酸化形式,该因子可与类似于真核增强子的位点结合。一个高度保守的调节结构域包含磷酸化位点并控制NRI的功能。我们分析了大肠杆菌中作为NRI磷酸化活性位点一部分的高度保守残基发生替换的影响。对磷酸化位点天冬氨酸54进行的14种替换,均损害了对氮剥夺的响应。这些变体中只有一种,即NRI D-54→E(NRI-D54E),能够显著刺激谷氨酰胺合成酶操纵子(glnALG)的主要启动子glnAp2的转录。带有这种变体的细胞能够以精氨酸作为氮源生长。对纯化成分进行的实验表明,未磷酸化的NRI-D54E可刺激转录。相比之下,天冬氨酸11处的替换不像天冬氨酸54处的替换那样有害。最后,我们表明,用精氨酸取代绝对保守的赖氨酸的NRI-K103R具有功能活性且能有效磷酸化。这种替换似乎能稳定NRI的磷酸天冬氨酸。我们的结果与同源蛋白研究结果之间的差异表明,高度保守残基参与转变为活化状态的方式可能存在显著差异。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/69b7/204572/c13310f6f330/jbacter00051-0227-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/69b7/204572/8e0a77cce8d5/jbacter00051-0224-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/69b7/204572/8bb007f95932/jbacter00051-0226-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/69b7/204572/c13310f6f330/jbacter00051-0227-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/69b7/204572/8e0a77cce8d5/jbacter00051-0224-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/69b7/204572/8bb007f95932/jbacter00051-0226-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/69b7/204572/c13310f6f330/jbacter00051-0227-a.jpg

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