Mucosal reactive oxygen species decrease virulence by disrupting Campylobacter jejuni phosphotyrosine signaling.
about
Reactive oxygen species and mitochondria: A nexus of cellular homeostasisGenetic disorders coupled to ROS deficiencyCj1411c encodes for a cytochrome P450 involved in Campylobacter jejuni 81-176 pathogenicityThe complete Campylobacter jejuni transcriptome during colonization of a natural host determined by RNAseq.Interaction of microbes with mucus and mucins: recent developmentsEuropean contribution to the study of ROS: A summary of the findings and prospects for the future from the COST action BM1203 (EU-ROS).Identification of a functional type VI secretion system in Campylobacter jejuni conferring capsule polysaccharide sensitive cytotoxicity.Adaptive mechanisms of Campylobacter jejuni to erythromycin treatmentAntibiotic resistance modulation and modes of action of (-)-α-pinene in Campylobacter jejuni.Transcriptomic analysis of Campylobacter jejuni NCTC 11168 in response to epinephrine and norepinephrine.Defects in NADPH Oxidase Genes NOX1 and DUOX2 in Very Early Onset Inflammatory Bowel DiseaseCommensal bacterial internalization by epithelial cells: An alternative portal for gut leakinessIncreased Expression of DUOX2 Is an Epithelial Response to Mucosal Dysbiosis Required for Immune Homeostasis in Mouse IntestineDual Repression of the Multidrug Efflux Pump CmeABC by CosR and CmeR in Campylobacter jejuni.Proteomic and genomic analysis reveals novel Campylobacter jejuni outer membrane proteins and potential heterogeneityDual oxidases control release of hydrogen peroxide by the gastric epithelium to prevent Helicobacter felis infection and inflammation in mice.NADPH oxidase-derived H2O2 subverts pathogen signaling by oxidative phosphotyrosine conversion to PB-DOPA.Pathogenesis of human enterovirulent bacteria: lessons from cultured, fully differentiated human colon cancer cell linesVirulence characteristics of five new Campylobacter jejuni chicken isolatesSelective recapitulation of conserved and nonconserved regions of putative NOXA1 protein activation domain confers isoform-specific inhibition of Nox1 oxidase and attenuation of endothelial cell migration.Aquaporin-3 mediates hydrogen peroxide-dependent responses to environmental stress in colonic epithelia.Tracing innate immune defences along the path of Listeria monocytogenes infection.Defining the metabolic requirements for the growth and colonization capacity of Campylobacter jejuniProstaglandin pathways in duodenal chemosensingROS in gastrointestinal inflammation: Rescue Or Sabotage?Superoxide dismutase SOD-1 modulates C. elegans pathogen avoidance behaviorNeutrophils and the inflammatory tissue microenvironment in the mucosa.Virulence characteristics of hcp (+) Campylobacter jejuni and Campylobacter coli isolates from retail chicken.Genome-Wide Identification of Host-Segregating Epidemiological Markers for Source Attribution in Campylobacter jejuniOxidative and nitrosative stress defences of Helicobacter and Campylobacter species that counteract mammalian immunity.Paradoxical roles of dual oxidases in cancer biology.Pathogen control at the intestinal mucosa - H2O2 to the rescue.Relaxation of DNA supercoiling leads to increased invasion of epithelial cells and protein secretion by Campylobacter jejuni.Assays to Study the Interaction of Campylobacter jejuni with the Mucosal Surface.Escherichia coli LF82 differentially regulates ROS production and mucin expression in intestinal epithelial T84 cells: implication of NOX1.Increased activation of NADPH oxidase 4 in the pulmonary vasculature in experimental diaphragmatic hernia.iNOS- and NOX1-dependent ROS production maintains bacterial homeostasis in the ileum of mice.The Sit-and-Wait Hypothesis in Bacterial Pathogens: A Theoretical Study of Durability and Virulence.Campylobacter jejuni transcriptional and genetic adaptation during human infection.The Campylobacter jejuni CprRS two-component regulatory system regulates aspects of the cell envelope.
P2860
Q26782529-38915BF0-799F-491F-AC5C-37CF8AFFFF8EQ26799545-DE7C273B-795D-4725-972B-59B59386E3C5Q28533834-E0828D91-C813-4D5B-940F-3DF679A23379Q31133769-DC281F5E-3410-451F-9D19-82483A7D5260Q33728310-6924915B-F3AA-459D-B96D-2C2AA2ED9B30Q33761211-3C9F0EAD-26CA-4A99-8381-198A8C6F6F09Q34758214-5FB4F861-B7E8-4D02-94DE-D947C2FBA586Q34773288-0D8FD093-A44B-4798-80F1-173DDB16A9DCQ35591950-A16CA80D-B54B-4287-89F7-23E68676472CQ35618351-F70F0EC8-626E-4600-85B8-D61E3BBAABD9Q35964479-5FA3BD5C-877D-433D-8DB0-9000E4F2EB23Q36072641-0A3524AB-9A8A-49EB-8292-C4CDA6991789Q36328418-933779A8-B684-48EF-A8B9-51EFC502DEAFQ37090481-A79BBF41-68F5-4CE9-B392-546C0C621271Q37156162-A7E9212E-C7DE-43A1-AF54-C4AF70D0BAB8Q37248764-0D7C9FCC-1CBB-453D-89E3-49C7957E90F4Q37264155-FDB935AD-07C1-4F02-B27B-5B1608237354Q37264192-F16E4713-F66B-482B-9DD7-4E54A6A5E1E1Q37400916-3D5EF324-6DCA-44A4-B115-032EF8D02D14Q37405010-D71A672E-9ECF-46E8-8D26-1A4F0CA9D00BQ37598979-7EA8B3BF-F363-4E99-81F5-D6B636750FA8Q38204574-DF57513A-4CC1-4BA2-BCA2-ECCACF362485Q38261033-63E12817-DF68-4C3D-953E-74E3E5EBAF9BQ38293032-F579EBBF-5AC5-4A10-9AEF-BF283C85A147Q38693962-1323F332-0254-4AE1-903F-1730288DD283Q38891467-4C6DD4E9-903E-4C7C-8FD9-4C91AC4A9919Q38936515-BDD7D058-5B6A-41FD-A967-D479CE60D263Q38953178-01CA98BF-6672-4148-ADAC-EB8CA2C83C10Q39003521-1D0FF629-A402-4B9E-AE75-02231CBFABC6Q39136933-0BE1BD5E-A0E3-4F0C-ADCA-97FAA6ADA413Q39348472-B191CF4C-3874-4E71-8635-F1E8B146F97EQ40374820-476EF8B4-85B6-41B6-8A86-A8FA3B22F401Q40395145-74878C3B-ACA9-4AD1-9BDE-107FC182A663Q40436420-11F8153C-65FE-44BE-B9C4-46577F9530EAQ41371514-9CCF87C8-8CBF-498D-AA1E-3020464FE913Q43783860-589AB4F8-2F63-4FF4-9C42-DBF674FC83DEQ46247024-CF2DC4AB-51CC-485D-A861-7176F9121A04Q47115917-3E2D88CB-B61F-4ECB-9362-4067E0BDB155Q53076840-3A919122-9119-462F-B7F8-5ED9205E195AQ54297343-865AD8D7-8F19-492B-AF10-34F30A947CE9
P2860
Mucosal reactive oxygen species decrease virulence by disrupting Campylobacter jejuni phosphotyrosine signaling.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on July 2012
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Mucosal reactive oxygen specie ...... uni phosphotyrosine signaling.
@en
Mucosal reactive oxygen specie ...... uni phosphotyrosine signaling.
@nl
type
label
Mucosal reactive oxygen specie ...... uni phosphotyrosine signaling.
@en
Mucosal reactive oxygen specie ...... uni phosphotyrosine signaling.
@nl
prefLabel
Mucosal reactive oxygen specie ...... uni phosphotyrosine signaling.
@en
Mucosal reactive oxygen specie ...... uni phosphotyrosine signaling.
@nl
P2093
P2860
P50
P1433
P1476
Mucosal reactive oxygen specie ...... juni phosphotyrosine signaling
@en
P2093
Abofu Alemka
Billy Bourke
Judith Mantell
Monika Strengert
Nicolae Corcionivoschi
Thomas H Sharp
P2860
P356
10.1016/J.CHOM.2012.05.018
P577
2012-07-01T00:00:00Z