Structural details of the OxyR peroxide-sensing mechanism
about
The Role of Reactive Oxygen Species in Antibiotic-Induced Cell Death in Burkholderia cepacia Complex BacteriaOxyR-regulated catalase CatB promotes the virulence in rice via detoxifying hydrogen peroxide in Xanthomonas oryzae pv. oryzae.Transcription Factors That Defend Bacteria Against Reactive Oxygen SpeciesNew perspectives: Insights into oxidative stress from bacterial studies.Dual promoters of the major catalase (KatA) govern distinct survival strategies of Pseudomonas aeruginosaProtocols for Molecular Modeling with Rosetta3 and RosettaScriptsPseudomonas aeruginosa Enolase Influences Bacterial Tolerance to Oxidative Stresses and Virulence.Conferring specificity in redox pathways by enzymatic thiol/disulfide exchange reactions.Discrimination and Integration of Stress Signals by Pathogenic Bacteria.Cysteines as Redox Molecular Switches and Targets of Disease.Structural basis for DNA recognition by the transcription regulator MetR.The solution configurations of inactive and activated DntR have implications for the sliding dimer mechanism of LysR transcription factors.OxyR2 Functions as a Three-state Redox Switch to Tightly Regulate Production of Prx2, a Peroxiredoxin of Vibrio vulnificus.The hydrogen peroxide hypersensitivity of OxyR2 in Vibrio vulnificus depends on conformational constraints.Structural basis of effector and operator recognition by the phenolic acid-responsive transcriptional regulator PadR.Characterization of redox-active cysteine residues of persulfide-responsive transcriptional repressor SqrR.Amino acid residues critical for DNA binding and inducer recognition in CbnR, a LysR-type transcriptional regulator from Cupriavidus necator NH9.Activation of leuO by LrhA in Escherichia coli.Crystal structure of peroxiredoxin 3 from Vibrio vulnificus and its implications for scavenging peroxides and nitric oxide.Defining the binding determinants of Shewanella oneidensis OxyR: implications for the link between the contracted OxyR regulon and adaptation.Coordinating carbon and nitrogen metabolic signaling through the cyanobacterial global repressor NdhR.PutA Is Required for Virulence and Regulated by PruR in Pseudomonas aeruginosa.A Novel Tetrameric Assembly Configuration in VV2_1132, a LysR-Type Transcriptional Regulator in Vibrio vulnificus.Mechanistic studies of DepR in regulating FK228 biosynthesis in Chromobacterium violaceum no. 968.Functional Mechanism of the Efflux Pumps Transcription Regulators From Pseudomonas aeruginosa Based on 3D Structures.RitR is an archetype for a novel family of redox sensors in the streptococci that has evolved from two-component response regulators and is required for pneumococcal colonization.Discovery of as a Global Regulator of Environmental Adaptation and Virulence inReduce, Induce, Thrive: Bacterial Redox Sensing during Pathogenesis
P2860
Q28552750-CB522B25-23DC-42BC-8CB6-1CA31D392C18Q36185947-73158FA1-30D8-43FE-A6CD-BD242464AC02Q36199932-1CA3C222-DAE9-4C83-81A1-E95F38183710Q36819315-CB6E6B23-E870-4D94-933E-112D3A4CCC15Q37153801-231DFC93-0E77-450E-94F7-EE33CCDEF395Q37223553-F4E69E72-2C81-48AF-BF86-FAEA8440C6EFQ37503911-77E52E8D-C75B-434C-85EB-074AA4B8B76DQ38634845-F5B1B00C-66E3-4C36-B532-6C4A98F52008Q38924604-19B27E82-4E2C-41CC-96A0-0CF5DBF2B27DQ39387054-FFD1320E-DEBB-4441-ABE5-1AA6580AE1E9Q39682183-4F3A020F-F245-4FEC-9FB7-D0A9CC5DD449Q40947197-A750EF19-B120-4A5A-AF69-535F1C20ED3FQ42030587-D73FB908-DF0B-4B30-AA08-78F75B6FF1E6Q46408244-65789AC8-652D-40F2-8DF7-06DC6BEE0B4DQ47129169-64462054-F32C-4108-BD22-3C7509DDCFBBQ47389167-5FAAD63A-96CB-4FD6-B9A9-6364A7AC0121Q47763123-67FC2189-EC80-49D6-9412-829D79E36D5AQ48172391-DBC6A2F4-D3BA-421B-A7D0-A4B62FB3D802Q48200830-17411BDD-3A6B-4264-9144-E4CAB2C88A28Q48524463-FFC8909B-FE09-48AF-9B8F-493959FF8CE0Q49568129-05010BBA-3F17-4C71-AA7E-B48B6A0D0950Q52597647-9D17C1A0-9723-4296-9009-F7CFCEEE93F4Q52682442-75B5702A-14DF-40B1-9A37-1AF66C7C5B54Q55396456-F893C421-E65A-4319-B76A-FC757B18D672Q55409105-40D675F9-404B-4AEB-A81A-1FF7350E5E98Q55499758-D0480869-A4A0-43D4-A81C-70FF1AF9318DQ58749692-A3F1D534-8624-47AA-805C-3745BE83AC7AQ58790706-D84C5EA6-59A7-4E42-AE72-E87034DFBF3C
P2860
Structural details of the OxyR peroxide-sensing mechanism
description
2015 nî lūn-bûn
@nan
2015 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
Structural details of the OxyR peroxide-sensing mechanism
@ast
Structural details of the OxyR peroxide-sensing mechanism
@en
type
label
Structural details of the OxyR peroxide-sensing mechanism
@ast
Structural details of the OxyR peroxide-sensing mechanism
@en
prefLabel
Structural details of the OxyR peroxide-sensing mechanism
@ast
Structural details of the OxyR peroxide-sensing mechanism
@en
P2093
P2860
P356
P1476
Structural details of the OxyR peroxide-sensing mechanism
@en
P2093
Hee-Won Bae
In-Young Chung
Jin-Sik Kim
Nam-Chul Ha
Saemee Song
P2860
P304
P356
10.1073/PNAS.1424495112
P407
P577
2015-04-30T00:00:00Z