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Escherichia coli NsrR Regulates a Pathway for the Oxidation of 3-Nitrotyramine to 4-Hydroxy-3-Nitrophenylacetate

机译：大肠杆菌NsrR调节3-硝基酪胺氧化为4-羟基-3-硝基苯乙酸的途径

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Chromatin immunoprecipitation and microarray (ChIP-chip) analysis showed that the nitric oxide (NO)-sensitive repressor NsrR from Escherichia coli binds in vivo to the promoters of the tynA and feaB genes. These genes encode the first two enzymes of a pathway that is required for the catabolism of phenylethylamine (PEA) and its hydroxylated derivatives tyramine and dopamine. Deletion of nsrR caused small increases in the activities of the tynA and feaB promoters in cultures grown on PEA. Overexpression of nsrR severely retarded growth on PEA and caused a marked repression of the tynA and feaB promoters. Both the growth defect and the promoter repression were reversed in the presence of a source of NO. These results are consistent with NsrR mediating repression of the tynA and feaB genes by binding (in an NO-sensitive fashion) to the sites identified by ChIP-chip. E. coli was shown to use 3-nitrotyramine as a nitrogen source for growth, conditions which partially induce the tynA and feaB promoters. Mutation of tynA (but not feaB) prevented growth on 3-nitrotyramine. Growth yields, mutant phenotypes, and analyses of culture supernatants suggested that 3-nitrotyramine is oxidized to 4-hydroxy-3-nitrophenylacetate, with growth occurring at the expense of the amino group of 3-nitrotyramine. Accordingly, enzyme assays showed that 3-nitrotyramine and its oxidation product (4-hydroxy-3-nitrophenylacetaldehyde) could be oxidized by the enzymes encoded by tynA and feaB, respectively. The results suggest that an additional physiological role of the PEA catabolic pathway is to metabolize nitroaromatic compounds that may accumulate in cells exposed to NO.

机译：染色质免疫沉淀和微阵列（ChIP芯片）分析表明，来自大肠杆菌的一氧化氮（NO）敏感阻遏物NsrR在体内与tynA和feaB基因的启动子结合。这些基因编码苯乙胺（PEA）及其羟基化衍生物酪胺和多巴胺分解代谢所需途径的前两种酶。 nsrR的删除导致在PEA上培养的培养物中tynA和feaB启动子的活性略有增加。 nsrR的过表达严重阻碍了PEA上的生长，并引起了tynA和feaB启动子的明显抑制。在存在NO源的情况下，生长缺陷和启动子抑制均被逆转。这些结果与NsrR通过与ChIP芯片鉴定的位点结合（以NO敏感方式）介导tynA和feaB基因的阻遏相一致。已证明大肠杆菌使用3-硝基酪胺作为氮源进行生长，其条件部分诱导了tynA和feaB启动子。 tynA（但不是feaB）的突变阻止了3-硝基酪胺的生长。生长产量，突变表型和培养上清液的分析表明3-硝基酪胺被氧化为4-羟基-3-硝基苯基乙酸酯，生长是以3-硝基酪胺的氨基为代价的。因此，酶分析表明3-硝基酪胺及其氧化产物（4-羟基-3-硝基苯基乙醛）可以分别被 tynA 和 feaB 编码的酶氧化。结果表明，PEA分解代谢途径的另一种生理作用是代谢可能在暴露于NO的细胞中积累的硝基芳族化合物。 展开▼

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期刊名称 Journal of Bacteriology

作者
Linda D. Rankin; Diane M. Bodenmiller; Jonathan D. Partridge; Shirley F. Nishino; Jim C. Spain; Stephen Spiro;
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年(卷),期 2008(190),18

年度 2008

页码 6170–6177

总页数 8

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中图分类微生物学;

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专利

1. Escherichia coli NsrR Regulates a Pathway for the Oxidation of 3-Nitrotyramine to 4-Hydroxy-3-Nitrophenylacetate [J] . Linda D. Rankin, Diane M. Bodenmiller, Jonathan D. Partridge, Journal of bacteriology . 2008,第18期

机译：大肠杆菌NsrR调节3-硝基酪胺氧化为4-羟基-3-硝基苯乙酸的途径

2. NsrR, GadE, and GadX Interplay in Repressing Expression of the Escherichia coli O157:H7 LEE Pathogenicity Island in Response to Nitric Oxide [J] . Priscilla Branchu, Stéphanie Matrat, Marjolaine Vareille, PLoS Pathogens . 2014,第1期

机译：NSRR，GADE和GADX在抑制大肠杆菌O157：H7 Lee致病性岛的表达中的相互作用，响应于一氧化氮

3. NsrR-dependent method for detecting nitric oxide accumulation in the Escherichia coli cytoplasm and enzymes involved in NO production [J] . Vine C.E., Purewal S.K., Cole J.A. FEMS Microbiology Letters . 2011,第2期

机译：依赖NsrR的方法来检测大肠杆菌细胞质中一氧化氮的积累以及参与NO产生的酶

4. "Parallel Metabolic Pathway Engineering"of Escherichia coli for Shikimate Pathway Derivative Production from Glucose-Xylose Co-substrate [C] . 藤原良介, 野田修平, 田中勉化学工学会年会 . 2020

机译：葡萄糖 - 木糖族衍生物生产的大肠杆菌的“平行代谢衔接工程”

5. The engineering of de novo pathways for oxidative protein folding in Escherichia coli [D] . Masip, Lluis 2006

机译：大肠杆菌中氧化蛋白折叠的从头途径工程

6. NsrR GadE and GadX Interplay in Repressing Expression of the Escherichia coli O157:H7 LEE Pathogenicity Island in Response to Nitric Oxide [O] . Priscilla Branchu, Stéphanie Matrat, Marjolaine Vareille, 2014

机译：NsrRGadE和GadX相互作用抑制一氧化氮对大肠杆菌O157：H7 LEE致病岛的表达。

7. Escherichia coli NsrR Regulates a Pathway for the Oxidation of 3-Nitrotyramine to 4-Hydroxy-3-Nitrophenylacetate▿ † [O] . Rankin, Linda D., Bodenmiller, Diane M., Partridge, Jonathan D., 2008

机译：大肠杆菌NsrR调节3-硝基酪胺氧化成4-羟基-3-硝基苯乙酸酯的途径†

8. Synthesis of Aerobactin and a 76,000-Dalton Iron-Regulated Outer Membrane Protein by Escherichia coli K-12-Shigella flexneri Hybrids and by Enteroinvasive Strains of Escherichia coli [R] . Griffiths, E., Stevenson, P., Hale, T. L., 1985

机译：大肠埃希氏菌K-12-shigella flexneri杂交种和大肠杆菌肠道侵袭菌合成aerobactin和76,000-Dalton铁调节的外膜蛋白

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Escherichia coli NsrR Regulates a Pathway for the Oxidation of 3-Nitrotyramine to 4-Hydroxy-3-Nitrophenylacetate

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