about
Gingipain-dependent interactions with the host are important for survival of Porphyromonas gingivalisBleach activates a redox-regulated chaperone by oxidative protein unfoldingMicroarray analysis of Pseudomonas aeruginosa reveals induction of pyocin genes in response to hydrogen peroxideA Systematic Review of Innate Immunomodulatory Effects of Household Air Pollution Secondary to the Burning of Biomass FuelsRole for inducible nitric oxide synthase in protection from chronic Chlamydia trachomatis urogenital disease in mice and its regulation by oxygen free radicalsRibonucleotide reductases of Salmonella typhimurium: transcriptional regulation and differential role in pathogenesisGlobal transcriptome analysis of Staphylococcus aureus response to hydrogen peroxideCu,Zn superoxide dismutase of Mycobacterium tuberculosis contributes to survival in activated macrophages that are generating an oxidative burstPseudomonas aeruginosa OspR is an oxidative stress sensing regulator that affects pigment production, antibiotic resistance and dissemination during infectionRole of the Pseudomonas aeruginosa oxyR-recG operon in oxidative stress defense and DNA repair: OxyR-dependent regulation of katB-ankB, ahpB, and ahpC-ahpFProtective role of the PG1036-PG1037-PG1038 operon in oxidative stress in Porphyromonas gingivalis W83Airway smooth muscle relaxation is impaired in mice lacking the p47phox subunit of NAD(P)H oxidaseIron-responsive regulation of the Helicobacter pylori iron-cofactored superoxide dismutase SodB is mediated by FurOxidant generation by single infected monocytes after short-term fluorescence labeling of a protozoan parasiteComparative proteome analysis of Brucella melitensis vaccine strain Rev 1 and a virulent strain, 16MFunctional genomics approach to the identification of virulence genes involved in Edwardsiella tarda pathogenesis.MtsABC is important for manganese and iron transport, oxidative stress resistance, and virulence of Streptococcus pyogenesMethionine sulfoxide reductase A (MsrA) deficiency affects the survival of Mycobacterium smegmatis within macrophages.Transcriptional analysis of Mycobacterium fortuitum cultures upon hydrogen peroxide treatment using the novel standard rrnA-P1.Complete genome of Phenylobacterium zucineum--a novel facultative intracellular bacterium isolated from human erythroleukemia cell line K562.Phagocytic superoxide specifically damages an extracytoplasmic target to inhibit or kill SalmonellaInfection with Mycobacterium avium differentially regulates the expression of iron transport protein mRNA in murine peritoneal macrophages.Why Quorum Sensing Controls Private GoodsEndogenous superoxide dismutase levels regulate iron-dependent hydroxyl radical formation in Escherichia coli exposed to hydrogen peroxide.Ascorbate recycling in human neutrophils: induction by bacteria.Severe oxidative stress induces protein mistranslation through impairment of an aminoacyl-tRNA synthetase editing site.Periplasmic superoxide dismutase protects Salmonella from products of phagocyte NADPH-oxidase and nitric oxide synthase.Identification and characterization of a novel extracellular ferric reductase from Mycobacterium paratuberculosisThe recA operon: A novel stress response gene cluster in Bacteroides fragilis.The Brucella abortus Cu,Zn superoxide dismutase is required for optimal resistance to oxidative killing by murine macrophages and wild-type virulence in experimentally infected mice.Gamma irradiation or CD4+-T-cell depletion causes reactivation of latent Salmonella enterica serovar Typhimurium infection in C3H/HeN miceBroad specificity AhpC-like peroxiredoxin and its thioredoxin reductant in the sparse antioxidant defense system of Treponema pallidum.Identification of an iron-regulated hemin-binding outer membrane protein, HupO, in Vibrio fluvialis: effects on hemolytic activity and the oxidative stress response.Dynamic active-site protection by the M. tuberculosis protein tyrosine phosphatase PtpB lid domain.Two phosphodiesterase genes, PDEL and PDEH, regulate development and pathogenicity by modulating intracellular cyclic AMP levels in Magnaporthe oryzaeListeria pathogenesis and molecular virulence determinantsThe alternative sigma factor, sigmaE, is critically important for the virulence of Salmonella typhimuriumCharacterization of heat, oxidative, and acid stress responses in Brucella melitensis.Contribution of Mn-cofactored superoxide dismutase (SodA) to the virulence of Streptococcus agalactiaeOpsonized virulent Edwardsiella tarda strains are able to adhere to and survive and replicate within fish phagocytes but fail to stimulate reactive oxygen intermediates
P2860
Q24630104-FA9D33CE-DEA9-4A7D-A52E-119CAADF8A56Q24643056-6A520B67-8F4D-41C7-BF1F-1D3049A2F81AQ24816990-9F911592-4852-45E9-B8D1-FAE16F6A0756Q26776314-CCFD97FC-5BE7-4D3B-B9C7-BF0C622768B2Q28363828-787C22D3-E189-4BB9-9F50-B56CF1133C20Q28474730-90E8A84E-84E5-4FBE-BA1D-DA8014EE1D54Q28485590-E70A4414-A352-4EE0-82FF-93E6F58434BBQ28487322-C321E160-1076-4302-AB4B-19F10953AC05Q28492555-B73768F0-753C-406A-B39F-43BDC9AA5BADQ28493073-C061DF59-13C0-4B3E-A022-5BEF03B1EE83Q28535433-EC502188-5427-4ED5-8A5A-A0AF94C6F01EQ28588703-68D61F3B-3DA1-4177-B91C-66C2B7DAE09CQ29346551-79F1D1B6-8F88-47C6-A6BA-9276EDED8ABBQ30479100-419AC215-6935-4900-AE9A-30030A413587Q30844635-16A86F93-2929-43D2-9D83-E5F5BED57818Q30887718-84368C5C-7E52-4DCB-93FA-6C4FB24593C8Q31139377-049B58E1-CF31-4A4E-A6BC-FE916AB3408DQ33203022-DEFB4BA3-AD3E-4D0C-82BE-1719384DD33EQ33345023-6844EFA9-D26C-4C02-8E91-A41C19393739Q33359785-89907FDB-1092-4738-944C-47C9E7452C14Q33420369-A6E4E769-1815-4630-B05F-EB36A278D7C2Q33551908-EC03FB80-DBEB-4736-8664-198DC2CB0A32Q33707113-D143B998-08A0-47E1-B81C-3ACD5CCAAE65Q33723726-8932EA6C-5629-4ADD-AE0F-1FE24E75E675Q33729472-18F1068D-94E7-4A27-8820-6A25B5D54E96Q33733028-242BA786-8235-4B53-8D6E-4716769DB35BQ33740986-15A518B1-9F9D-46AD-A775-81075459001EQ33750479-8714B470-484A-4B0E-BE98-FEC87ED4E78EQ33762759-12827727-8D34-4CD8-A5F0-0C5C03969118Q33768886-B8E873B2-0539-4D9A-8FE0-31FF4D87FE32Q33768948-A1A19C3A-5707-414C-8ADC-D35A44AFD7CEQ33778779-8E691861-B7B4-480B-876B-C228D1A8788FQ33793067-7D75315F-1D2A-48CF-A643-966C6F63429AQ33806251-C2373A7D-7E01-4EB8-AD82-339D2ACDC1C8Q33840933-43D8F77C-D570-4DDE-BF41-4FACE58D549DQ33975740-66C11B3E-DFDA-42D9-A922-CD3BBF38A2C0Q34000770-85071BB0-EE01-4A92-86F0-FCAD9760EFF8Q34004446-DD48D818-6CAF-4161-BD3F-FD214B5A5480Q34008692-9016A699-4E50-4B80-AF15-57EEC47E63ECQ34009030-3B1964D6-B431-48EC-85F7-D0F01263D541
P2860
description
1997 nî lūn-bûn
@nan
1997 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年学术文章
@wuu
1997年学术文章
@zh-cn
1997年学术文章
@zh-hans
1997年学术文章
@zh-my
1997年学术文章
@zh-sg
1997年學術文章
@yue
name
Role of oxidants in microbial pathophysiology
@ast
Role of oxidants in microbial pathophysiology
@en
Role of oxidants in microbial pathophysiology
@nl
type
label
Role of oxidants in microbial pathophysiology
@ast
Role of oxidants in microbial pathophysiology
@en
Role of oxidants in microbial pathophysiology
@nl
prefLabel
Role of oxidants in microbial pathophysiology
@ast
Role of oxidants in microbial pathophysiology
@en
Role of oxidants in microbial pathophysiology
@nl
P2860
P3181
P1476
Role of oxidants in microbial pathophysiology
@en
P2093
B E Britigan
R A Miller
P2860
P3181
P407
P577
1997-01-01T00:00:00Z