Microbial endocrinology: how stress influences susceptibility to infection.
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Epigenetic Regulation of Enteric Neurotransmission by Gut BacteriaIndividuality, phenotypic differentiation, dormancy and 'persistence' in culturable bacterial systems: commonalities shared by environmental, laboratory, and clinical microbiologyThe DSF Family of Cell-Cell Signals: An Expanding Class of Bacterial Virulence RegulatorsRole of enteric neurotransmission in host defense and protection of the gastrointestinal tractStress and the commensal microbiota: importance in parturition and infant neurodevelopmentPathogen espionage: multiple bacterial adrenergic sensors eavesdrop on host communication systemsThe Dynamic Interactions between Salmonella and the Microbiota, within the Challenging Niche of the Gastrointestinal TractMinireview: Gut microbiota: the neglected endocrine organCCA addition to tRNA: implications for tRNA quality controlPeriodontal dysbiosis linked to periodontitis is associated with cardiometabolic adaptation to high-fat diet in mice.Membrane sphingolipids as essential molecular signals for Bacteroides survival in the intestine.Elucidation of the mechanism by which catecholamine stress hormones liberate iron from the innate immune defense proteins transferrin and lactoferrinTeleost microbiomes: the state of the art in their characterization, manipulation and importance in aquaculture and fisheriesDo managed bees drive parasite spread and emergence in wild bees?Differential gene expression and adherence of Escherichia coli O157:H7 in vitro and in ligated pig intestinesAntimicrobial anxiety: the impact of stress on antimicrobial immunity6-hydroxydopamine-mediated release of norepinephrine increases faecal excretion of Salmonella enterica serovar Typhimurium in pigs.Neuroendocrine nicotinic receptor activation increases susceptibility to bacterial infections by suppressing antimicrobial peptide productionTagging frogs with passive integrated transponders causes disruption of the cutaneous bacterial community and proliferation of opportunistic fungiGlobal effects of catecholamines on Actinobacillus pleuropneumoniae gene expression.A role for the gut microbiota in IBS.Differential stress responses among newly received calves: variations in reductant capacity and Hsp gene expression.The gut microbiome and the brain.Targeting the gut-liver axis in cirrhosis: antibiotics and non-selective β-blockers.Staphylococcus aureus transporters Hts, Sir, and Sst capture iron liberated from human transferrin by Staphyloferrin A, Staphyloferrin B, and catecholamine stress hormones, respectively, and contribute to virulence.Host stress hormone norepinephrine stimulates pneumococcal growth, biofilm formation and virulence gene expression.Catecholamines promote Actinobacillus pleuropneumoniae growth by regulating iron metabolismCRH promotes S. pneumoniae growth in vitro and increases lung carriage in mice.Transcriptomic analysis of Campylobacter jejuni NCTC 11168 in response to epinephrine and norepinephrine.On the translocation of bacteria and their lipopolysaccharides between blood and peripheral locations in chronic, inflammatory diseases: the central roles of LPS and LPS-induced cell death.Gram-negative bacterial sensors for eukaryotic signal moleculesHomeostasis and its disruption in the lung microbiome.Impact of Heat Stress on Poultry ProductionIron acquisition in the cystic fibrosis lung and potential for novel therapeutic strategies.Involvement of multiple distinct Bordetella receptor proteins in the utilization of iron liberated from transferrin by host catecholamine stress hormones.Thiophenone Attenuates Enteropathogenic Escherichia coli O103:H2 Virulence by Interfering with AI-2 Signaling.Changes in salivary microbiota increase volatile sulfur compounds production in healthy male subjects with academic-related chronic stressAggregatibacter actinomycetemcomitans QseBC is activated by catecholamines and iron and regulates genes encoding proteins associated with anaerobic respiration and metabolism.Posttraumatic Stress Disorder: Does the Gut Microbiome Hold the Key?Stress-induced effects, which inhibit host defenses, alter leukocyte trafficking
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P2860
Microbial endocrinology: how stress influences susceptibility to infection.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
@pt
bilimsel makale
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scientific article published on 10 January 2008
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Microbial endocrinology: how stress influences susceptibility to infection.
@en
Microbial endocrinology: how stress influences susceptibility to infection.
@nl
type
label
Microbial endocrinology: how stress influences susceptibility to infection.
@en
Microbial endocrinology: how stress influences susceptibility to infection.
@nl
prefLabel
Microbial endocrinology: how stress influences susceptibility to infection.
@en
Microbial endocrinology: how stress influences susceptibility to infection.
@nl
P2093
P1476
Microbial endocrinology: how stress influences susceptibility to infection.
@en
P2093
Primrose P E Freestone
Richard D Haigh
Sara M Sandrini
P356
10.1016/J.TIM.2007.11.005
P577
2008-01-10T00:00:00Z