Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Paracoccus denitrificans and its near relative Paracoccus versutus (formerly known as Thiobacilllus versutus) have been attracting increasing attention because the aerobic respiratory system of P. denitrificans has long been regarded as a model for that of the mitochondrion, with which there are many components (e.g., cytochrome aa3 oxidase) in common. Members of the genus exhibit a great range of metabolic flexibility, particularly with respect to processes involving respiration. Prominent examples of flexibility are the use in denitrification of nitrate, nitrite, nitrous oxide, and nitric oxide as alternative electron acceptors to oxygen and the ability to use C1 compounds (e.g., methanol and methylamine) as electron donors to the respiratory chains. The proteins required for these respiratory processes are not constitutive, and the underlying complex regulatory systems that regulate their expression are beginning to be unraveled. There has been uncertainty about whether transcription in a member of the alpha-3 Proteobacteria such as P. denitrificans involves a conventional sigma70-type RNA polymerase, especially since canonical -35 and -10 DNA binding sites have not been readily identified. In this review, we argue that many genes, in particular those encoding constitutive proteins, may be under the control of a sigma70 RNA polymerase very closely related to that of Rhodobacter capsulatus. While the main focus is on the structure and regulation of genes coding for products involved in respiratory processes in Paracoccus, the current state of knowledge of the components of such respiratory pathways, and their biogenesis, is also reviewed.
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PMID:Molecular genetics of the genus Paracoccus: metabolically versatile bacteria with bioenergetic flexibility. 984 65

A library of Escherichia coli fnr mutants has been screened to identify FNR (regulator of fumarate and nitrate reduction) variants that are defective repressors, but competent activators. All but one of seventeen variants had substitutions close to or within the face of FNR that contains activating region 1 (AR1). Activating region 1 is known to contact the alpha subunit of RNA polymerase to facilitate transcription activation. It is now evident that this face also has a role in FNR-mediated repression. Single amino acid substitutions at Lys54, Gly74, Ala95, Met147, Leu193, Arg197, or Leu239, and double substitutions at Ser13 and Ser145, Cys16 and Ile45, Tyr69 and Ser133, or Lys164 and Phe191, impaired FNR-mediated repression of ndh without greatly affecting activation from model Class I (FNR site at -71.5) and Class II (FNR site at -41.5) FNR-activated promoters. Although repression was impaired in a second group of FNR variants with substitutions at Leu34, Arg72 and Leu193, Phe92, or Ser178, transcription activation from the simple FNR-dependent promoters was severely reduced. However, expression from pyfiD (FNR sites at -40.5 and -93.5) and a derivative lacking the site at -93.5, pyfiD-/+, remained relatively high indicating that this second group have a context-dependent activation defect as well as a repression defect. The prediction that the substitutions affecting repression were likely to be in solvent exposed regions of FNR was supported by analysis of peptides produced by partial proteolysis of FNR. Thus, FNR-mediated repression at promoters with multiple FNR sites requires regions of FNR that are different from, but overlap, AR1.
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PMID:Identification of a surface of FNR overlapping activating region 1 that is required for repression of gene expression. 1018 10

The transcription factor NNR from Paracoccus denitrificans was expressed in a strain of Escherichia coli carrying a plasmid-borne fusion of the melR promoter to lacZ, with a consensus FNR-binding site 41.5 bp upstream of the transcription start site. This promoter was activated by NNR under anaerobic growth conditions in media containing nitrate, nitrite, or the NO(+) donor sodium nitroprusside. Activation by nitrate was abolished by a mutation in the molybdenum cofactor biosynthesis pathway, indicating a requirement for nitrate reductase activity. Activation by nitrate was modulated by the inclusion of reduced hemoglobin in culture media, because of the ability of hemoglobin to sequester nitric oxide and nitrite. The ability of nitrate and nitrite to activate NNR is likely due to the formation of NO (or related species) during nitrate and nitrite respiration. Amino acids potentially involved in NNR activity were replaced by site-directed mutagenesis, and the activities of NNR derivatives were tested in the E. coli reporter system. Substitutions at Cys-103 and Tyr-35 significantly reduced NNR activity but did not abolish the response to reactive nitrogen species. Substitutions at Phe-82 and Tyr-93 severely impaired NNR activity, but the altered proteins retained the ability to repress an FNR-repressible promoter, so these mutations have a "positive control" phenotype. It is suggested that Phe-82 and Tyr-93 identify an activating region of NNR that is involved in an interaction with RNA polymerase. Replacement of Ser-96 with alanine abolished NNR activity, and the protein was undetectable in cell extracts. In contrast, NNR in which Ser-96 was replaced with threonine retained full activity.
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PMID:Heterologous NNR-mediated nitric oxide signaling in Escherichia coli. 1105 88

In Escherichia coli, the anaerobic expression of genes encoding the nitrate (narGHJI) and dimethyl sulphoxide (dmsABC) terminal reductases is stimulated by the global anaerobic regulator FNR. The ability of FNR to activate transcription initiation has been proposed to be dependent on protein-protein interactions between RNA polymerase and two activating regions (AR) of FNR, FNR-AR1 and FNR-AR3. To further our understanding of the role of FNR-AR1 and FNR-AR3 in transcription activation, we measured the effects of FNR-AR mutants on expression of the narG and dmsA promoters, PnarG and PdmsA. All the FNR-AR1 (FNR-S73F, FNR-T118A, FNR-S187P), FNR-AR3 (FNR-G85A) and FNR-AR1-AR3 (FNR-G85A-S187P) mutants that were tested decreased expression from PnarG and PdmsA in vivo. Transcription assays of PdmsA also showed that the FNR-AR mutant proteins impaired transcription activation in vitro. Furthermore, DNase I footprinting analysis confirmed that this transcription defect was not a result of altered DNA-binding properties. The function of FNR-S187P and FNR-G85A was also measured in strains containing sigma70 mutants (sigma70-K593A, sigma70-R596A and sigma70-K597A) known to be impaired in FNR-dependent transcription activation. Of all of the combinations analysed, only FNR-G85 and sigma70-K597 showed a genetic interaction, supporting the notion that FNR-AR3 and sigma70 interact functionally in the process of transcription activation. Lastly, the transcription activation defect of the FNR-AR1 and FNR-AR3 mutants was greatly reduced when expression of PnarG was assayed in the presence of nitrate. As these growth conditions promote maximal activity of PnarG as a result of the combined function of NarL, IHF and FNR, these results suggest that the requirements for FNR-AR1 and FNR-AR3 are altered in the presence of additional activators.
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PMID:FNR-dependent activation of the class II dmsA and narG promoters of Escherichia coli requires FNR-activating regions 1 and 3. 1111 16

Respiratory reduction of nitrate to nitrite is the first key step in the denitrification process that leads to nitrate loss from soils. In Paracoccus pantotrophus, the enzyme system that catalyzes this reaction is encoded by the narKGHJI gene cluster. Expression of this cluster is maximal under anaerobic conditions in the presence of nitrate. Upstream from narK is narR, a gene encoding a member of the FNR family of transcriptional activators. narR is transcribed divergently from the other nar genes. Mutational analysis reveals that NarR is required for maximal expression of the membrane-bound nitrate reductase genes and narK but has no other regulatory function related to denitrification. NarR is shown to require nitrate and/or nitrite is order to activate gene expression. The N-terminal region of the protein lacks the cysteine residues that are required for formation of an oxygen-sensitive iron-sulfur cluster in some other members of the FNR family. Also, NarR lacks a crucial residue involved in interactions of this family of regulators with the sigma(70) subunit of RNA polymerase, indicating that a different mechanism is used to promote transcription. narR is also found in Paracoccus denitrificans, indicating that this species contains at least three FNR homologues.
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PMID:Maximal expression of membrane-bound nitrate reductase in Paracoccus is induced by nitrate via a third FNR-like regulator named NarR. 1137 24

Recent studies on the contamination of groundwater with human enteric viruses have focused on public water systems, whereas little is known about the occurrence of viruses in private household wells. The objective of the present study was to estimate the incidence of viruses in Wisconsin household wells located near septage land application sites or in rural subdivisions served by septic systems. Fifty wells in seven hydrogeologic districts were sampled four times over a year, once each season. Reverse transcriptase PCR (RT-PCR), followed by Southern hybridization, was used to detect enteroviruses, rotavirus, hepatitis A virus (HAV), and Norwalk-like viruses (NLVs). In addition, cell culture was used to detect culturable enteroviruses. Companion water samples were collected for total coliforms, Escherichia coli, fecal enterococci, F-specific RNA coliphages, nitrate, and chloride analyses. Among the 50 wells, four (8%) were positive for viruses by RT-PCR. Three wells were positive for HAV, and the fourth well was positive for both rotavirus and NLV in one sample and an enterovirus in another sample. Contamination was transient, since none of the wells was virus positive for two sequential samples. Culturable enteroviruses were not detected in any of the wells. Water quality indicators were not statistically associated with virus occurrence, although some concordance was noted for chloride. The present study is the first in the United States to systematically monitor private household wells for virus contamination and, combined with data for public wells, provides further insight on the extent of groundwater contamination with human enteric viruses.
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PMID:Incidence of enteric viruses in groundwater from household wells in Wisconsin. 1257 Oct 44

The Escherichia coli ndh gene encodes NADH dehydrogenase II, a primary dehydrogenase used during aerobic and nitrate respiration. The anaerobic transcription factor FNR represses ndh expression by binding at two sites centred at -94.5 and -50.5. In vivo transcription studies using promoter fusions with 5' deletions confirmed that both FNR sites are required for maximum repression under anaerobic conditions. The histone-like protein Fis binds to three sites [centred at -123 (Fis I), -72, (Fis II) and +51 (Fis III)] in the ndh promoter. Using ndh : : lacZ promoter fusions carrying 5' deletions, or replacement mutations it is shown that Fis III is a repressing site and that Fis I and II are activating sites, with the greatest contribution from Fis II. Deletion of the C-terminal domain of the RNA polymerase alpha-subunit abolished Fis-mediated activation of ndh expression, suggesting that ndh has a Class I Fis-activated promoter. In accordance with the established pattern of Fis synthesis, ndh transcription was greatest during exponential growth. Thus, it is suggested that Fis enhances ndh expression during periods of rapid growth, by acting as a Class I activator, and that the binding of tandem FNR dimers represses ndh expression by preventing interaction of the RNA polymerase alpha-subunit with DNA and Fis.
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PMID:Regulation of ndh expression in Escherichia coli by Fis. 1476 19

The Haloferax mediterranei nar operon has been sequenced and its regulation has been characterized at transcriptional level. The nar operon encodes seven open reading frames(ORFs) (ORF1 narB, narC, ORF4, narG, narH, ORF7 and narJ). ORF1, ORF4 and ORF7 are open reading frames with no assigned function, however the rest of them encoded different proteins. narB codes for a 219-amino-acid-residue iron Rieske protein. narC encodes a protein of 486 amino acid residues identified by databases searches as cytochrome-b (narC). The narG gene encodes a protein with 983 amino acid residues and is identified as a respiratory nitrate reductase catalytic subunit (narG). NarH protein has been identified as an electron transfer respiratory nitrate reductase subunit (narH). The last ORF encodes a chaperonin-like protein (narJ) of 242 amino acid residues. The respiratory nitrate reductase was purified 21-fold from H. mediterranei membranes. Based on SDS-PAGE and gel-filtration chromatography under native conditions, the enzyme complex consists of two subunits of 112 and 61 kDa. The optimum temperature for activity was 70 degrees C at 3.4 M NaCl and the stability did not show a direct dependence on salt concentration. Respiratory nitrate reductase showed maximum activity at pH 7.9 and pH 8.2 when assays were carried out at 40 and 60 degrees C, respectively. The absorption spectrum indicated that Nar contains Fe-S clusters. Reverse transcriptase (RT-PCR) shows that regulation of nar genes occurs at transcriptional level induced by oxygen-limiting conditions and the presence of nitrate.
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PMID:Respiratory nitrate reductase from haloarchaeon Haloferax mediterranei: biochemical and genetic analysis. 1534 13

Depleted uranium (DU) is a by-product of the uranium enrichment process and shares chemical properties with natural and enriched uranium. To investigate the toxic effects of environmental DU exposure on the immune system, we examined the influences of DU (in the form of uranyl nitrate) on viability and immune function as well as cytokine gene expression in murine peritoneal macrophages and splenic CD4+ T cells. Macrophages and CD4+ T cells were exposed to various concentrations of DU, and cell death via apoptosis and necrosis was analyzed using annexin-V/propidium iodide assay. DU cytotoxicity in both cell types was concentration dependent, with macrophage apoptosis and necrosis occurring within 24 hr at 100 microM DU exposure, whereas CD4+ T cells underwent cell death at 500 microM DU exposure. Noncytotoxic concentrations for macrophages and CD4+ T cells were determined as 50 and 100 microM, respectively. Lymphoproliferation analysis indicated that macrophage accessory cell function was altered with 200 microM DU after exposure times as short as 2 hr. Microarray and real-time reverse-transcriptase polymerase chain reaction analyses revealed that DU alters gene expression patterns in both cell types. The most differentially expressed genes were related to signal transduction, such as c-jun, NF- kappa Bp65, neurotrophic factors (e.g., Mdk), chemokine and chemokine receptors (e.g., TECK/CCL25), and interleukins such as IL-10 and IL-5, indicating a possible involvement of DU in cancer development, autoimmune diseases, and T helper 2 polarization of T cells. The results are a first step in identifying molecular targets for the toxicity of DU and the elucidation of the molecular mechanisms for the immune modulation ability of DU.
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PMID:In vitro immune toxicity of depleted uranium: effects on murine macrophages, CD4+ T cells, and gene expression profiles. 1639 63

Nitrate tolerance is associated with an enhanced superoxide anion (O(2)(-)) production and may be attenuated by statins as they interact with the two main endothelial NO synthase (eNOS) and NAD(P)H oxidase pathways involved in this oxidative stress. Groups of wild-type (wt, C57Bl/6J) and eNOS knock-out mice (eNOS(-/-)) received rosuvastatin (20 mg kg(-1) day(-1) p.o.) for 5 weeks and a cotreatment with the statin plus nitroglycerin (NTG; 30 mg kg(-1) day(-1), subcutaneous injections b.i.d.) for the last 4 days. Another group received only NTG (30 mg kg(-1) d(-1), b.i.d. for 4 days) and finally control mice from both strains received no treatment. Rings of thoracic aortas from these groups were studied in organ baths. Relaxations to NTG (0.1 nM-0.1 mM) were determined on thromboxane analogue (U44619)-precontracted rings and O(2)(-) production (RLU 5 s(-1) mg(-1) of total protein content) was assessed in aorta homogenates with the lucigenin-enhanced chemiluminescence technique. Reverse transcriptase-polymerase chain reaction analysis was performed on aortas from both mice strains. In vivo NTG treatment induced a significant rightward shift of the concentration-effect curve to NTG compared to control group. There was, however, no cross-tolerance with non-nitrate sources of NO (unaltered response to acetylcholine in wt group). The rosuvastatin + NTG cotreatment was able to protect against the development of nitrate tolerance in both mice strains and L-mevalonate abolished this protective effect of rosuvastatin. In vivo treatment with apocynin, a purported NAD(P)H oxidase inhibitor, also produced a similar protection to that observed with rosuvastatin in both strains. Superoxide anion formation was increased after NTG treatment in both mice strains and the rosuvastatin + NTG cotreatment was able to reduce that production. Moreover, rosuvastatin treatment abolished the increase in gp91phox mRNA (an endothelial membrane NAD(P)H oxidase subunit) expression induced by in vivo exposure to NTG. These findings suggest that long-term rosuvastatin treatment protects against nitrate tolerance by counteracting NTG-induced increase in O(2)(-) production, probably via a direct interaction with the NAD(P)H oxidase pathway.
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PMID:Rosuvastatin treatment protects against nitrate-induced oxidative stress in eNOS knockout mice: implication of the NAD(P)H oxidase pathway. 1663 68


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