Control of electron flow in Escherichia coli: coordinated transcription of respiratory pathway genes
about
Interactive control of Rhodobacter capsulatus redox-balancing systems during phototrophic metabolismFumarate regulation of gene expression in Escherichia coli by the DcuSR (dcuSR genes) two-component regulatory systemCompensations for diminished terminal oxidase activity in Escherichia coli: cytochrome bd-II-mediated respiration and glutamate metabolismThe superfamily of heme-copper respiratory oxidasesOxygen and nitrate-dependent regulation of dmsABC operon expression in Escherichia coli: sites for Fnr and NarL protein interactionsEscherichia coli redox mutants as microbial cell factories for the synthesis of reduced biochemicals.Sequence and genetic characterization of etrA, an fnr analog that regulates anaerobic respiration in Shewanella putrefaciens MR-1Modeling central metabolism and energy biosynthesis across microbial lifeOptimization of overexpression of a chaperone protein of steroid C25 dehydrogenase for biochemical and biophysical characterization.Modulation of gene expression in Actinobacillus pleuropneumoniae exposed to bronchoalveolar fluid.Hypersensitivity of Escherichia coli Delta(uvrB-bio) mutants to 6-hydroxylaminopurine and other base analogs is due to a defect in molybdenum cofactor biosynthesis.The napF and narG nitrate reductase operons in Escherichia coli are differentially expressed in response to submicromolar concentrations of nitrate but not nitrite.Signal-dependent phosphorylation of the membrane-bound NarX two-component sensor-transmitter protein of Escherichia coli: nitrate elicits a superior anion ligand response compared to nitriteIsolation and characterization of a Shewanella putrefaciens MR-1 electron transport regulator etrA mutant: reassessment of the role of EtrA.Proteomic View of Interactions of Shiga Toxin-Producing Escherichia coli with the Intestinal Environment in Gnotobiotic Piglets.The cytochrome bd respiratory oxygen reductasesManipulating respiratory levels in Escherichia coli for aerobic formation of reduced chemical products.Regulation of the molybdate transport operon, modABCD, of Escherichia coli in response to molybdate availability.The NarX and NarQ sensor-transmitter proteins of Escherichia coli each require two conserved histidines for nitrate-dependent signal transduction to NarL.Oxygen control of the Bradyrhizobium japonicum hemA gene.Effect of microaerophilic cell growth conditions on expression of the aerobic (cyoABCDE and cydAB) and anaerobic (narGHJI, frdABCD, and dmsABC) respiratory pathway genes in Escherichia coli.Regulators of aerobic and anaerobic respiration in Bacillus subtilisTranscriptional regulation of the proton-translocating ATPase (atpIBEFHAGDC) operon of Escherichia coli: control by cell growth rate.Nitrate- and nitrite-sensing protein NarX of Escherichia coli K-12: mutational analysis of the amino-terminal tail and first transmembrane segmentCoordinate regulation of the Escherichia coli formate dehydrogenase fdnGHI and fdhF genes in response to nitrate, nitrite, and formate: roles for NarL and NarPThe Escherichia coli NarL receiver domain regulates transcription through promoter specific functions.Analysis of the FnrL regulon in Rhodobacter capsulatus reveals limited regulon overlap with orthologues from Rhodobacter sphaeroides and Escherichia coli.Phosphorylation and dephosphorylation of the NarQ, NarX, and NarL proteins of the nitrate-dependent two-component regulatory system of Escherichia coli.Effect of heme and oxygen availability on hemA gene expression in Escherichia coli: role of the fnr, arcA, and himA gene products.Effect of cell growth rate on expression of the anaerobic respiratory pathway operons frdABCD, dmsABC, and narGHJI of Escherichia coli.Effects of nitrate respiration on expression of the Arc-controlled operons encoding succinate dehydrogenase and flavin-linked L-lactate dehydrogenase.Site-specific DNA cleavage of synthetic NarL sites by an engineered Escherichia coli NarL protein-1,10-phenanthroline cleaving agent.Vanadium(V) reduction by Shewanella oneidensis MR-1 requires menaquinone and cytochromes from the cytoplasmic and outer membranes.Role of Glyoxylate Shunt in Oxidative Stress ResponseBehavioral responses of Escherichia coli to changes in redox potential.Genome-wide analysis of the response to nitric oxide in uropathogenic Escherichia coli CFT073.Isolation of an oxygen-sensitive FNR protein of Escherichia coli: interaction at activator and repressor sites of FNR-controlled genes.Metabolic regulation in Escherichia coli in response to culture environments via global regulators.Intravital models of infection lay the foundation for tissue microbiology.FNR is a global regulator of virulence and anaerobic metabolism in Salmonella enterica serovar Typhimurium (ATCC 14028s).
P2860
Q24514499-3A43750D-ACDC-43E0-A598-606D4675F2C4Q24521634-63EAC34B-0273-44A0-8265-26B72254EE4DQ24598568-C27A3D79-5DCA-44DB-A8F3-1CC929226FECQ24685912-217114E2-9CAD-4D08-BBA9-A7E4B94960F1Q24795913-731AE72D-8E9C-4D76-A25C-C4D61EC02EF1Q27004040-FEA17320-0F77-412B-BBCD-66E5A960A05EQ28487964-C4870E66-9884-4D8A-87B7-A9CFFBBA7F38Q28830996-867BE104-E204-40B5-8C42-A2B3F2E7C118Q30252864-53F2A669-7FF1-41EC-B073-AEC62BD59FA7Q33478419-52F72161-4A9F-4921-8004-8C3C5FDD7A87Q33601912-C71F33EB-93E3-49FA-B9B0-1B4A5D796185Q33992817-B60FD3F8-38E1-48F2-A404-ECE212DAEADCQ33992824-CE349E25-4F88-4C5A-9530-8F6C80461841Q34011537-7B99F581-0AF0-4A04-B483-7FC8974F13ECQ34805497-8293F3CF-87C4-4F80-B902-CEEE1C8B8B9AQ35209505-5F9BE4F4-BF37-4592-8C06-6928B48F1657Q35535607-4A567C35-EBA7-4EE8-89A7-A9E376A48FE0Q35579627-CB98557C-8E81-44AB-A1FC-2F1257A60ECBQ35584404-895FC677-E079-4FCE-8CD0-E72B081C839CQ35590017-9078E0F0-5E6D-44EE-87D3-70BAE795ADA8Q35602704-560095F0-32CE-4D5E-B1C8-E07DDF57AFA7Q35603397-2F1EACE5-30C7-43DE-8B3A-7CB4A2C26A2FQ35613740-E4B65EEF-E375-4D6A-A9D2-B1D48D069378Q35619353-18AA3FD5-5092-4D15-B762-50EFA8C2364BQ35662737-46C7A7DD-B9BF-4A8A-B74A-57D9A4F13735Q35755345-CBC44625-6CE1-4816-8B15-003870BCE085Q35832790-1600EF20-C0C6-402F-9338-C8D62D99AEA2Q35968155-8FFFE2AA-3319-4292-8103-C53649DB23AAQ35974599-759DF34A-4D05-4873-8378-15053B99763DQ35979875-971421FC-1C8D-4E4B-9FC9-EB94376B2954Q36106036-3A3FEFC4-A953-4FDD-988E-CF1F45A3847CQ36639528-BD6EE260-633C-4A6E-AC05-33E966225E43Q36932466-68B595A8-E8A4-4B0D-BB42-7DFF4E7E5423Q36941153-F710C74D-6B6E-40E3-B547-4E783A2766BBQ37325203-08DB9820-93C4-4E2F-AEC0-A0486977BA89Q37658140-84D4CF5F-EEED-4437-A49E-08D7C2E01621Q37735125-61D31586-FCEA-4300-8297-0044CC59E97DQ37857096-DB5A85D8-4ED8-492B-834F-3F74F9D711DCQ37996092-19CC3A44-0CCF-4A0B-8CCA-F87DDDE80A08Q38305847-6DEA47D7-561E-4F9B-8645-56888F7BA229
P2860
Control of electron flow in Escherichia coli: coordinated transcription of respiratory pathway genes
description
1992 nî lūn-bûn
@nan
1992 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1992 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
name
Control of electron flow in Es ...... n of respiratory pathway genes
@ast
Control of electron flow in Es ...... n of respiratory pathway genes
@en
Control of electron flow in Es ...... n of respiratory pathway genes
@nl
type
label
Control of electron flow in Es ...... n of respiratory pathway genes
@ast
Control of electron flow in Es ...... n of respiratory pathway genes
@en
Control of electron flow in Es ...... n of respiratory pathway genes
@nl
prefLabel
Control of electron flow in Es ...... n of respiratory pathway genes
@ast
Control of electron flow in Es ...... n of respiratory pathway genes
@en
Control of electron flow in Es ...... n of respiratory pathway genes
@nl
P2860
P3181
P1476
Control of electron flow in Es ...... n of respiratory pathway genes
@en
P2093
R P Gunsalus
P2860
P304
P3181
P356
10.1128/JB.174.22.7069-7074.1992
P407
P577
1992-11-01T00:00:00Z