| scholarly article | Q13442814 |
| P2093 | author name string | Rachel R Caspi | |
| Anthony J St Leger | |||
| P2860 | cites work | HSV-1 DNA in tears and saliva of normal adults | Q24532006 |
| Presence of epidermal-derived thymocyte activating factor/interleukin 1 in normal human stratum corneum | Q24563787 | ||
| Immunosenescence: emerging challenges for an ageing population | Q24655433 | ||
| Antimicrobial compounds in tears | Q27026893 | ||
| Development, alteration and real time dynamics of conjunctiva-associated lymphoid tissue | Q27300267 | ||
| Impact of Microbiota on Resistance to Ocular Pseudomonas aeruginosa-Induced Keratitis | Q27312107 | ||
| Oral microbiome link to neurodegeneration in glaucoma | Q27316016 | ||
| Role of defensins in corneal epithelial barrier function against Pseudomonas aeruginosa traversal | Q28116404 | ||
| Induction of intestinal Th17 cells by segmented filamentous bacteria | Q28131638 | ||
| NK cells promote Th-17 mediated corneal barrier disruption in dry eye | Q28730069 | ||
| Induction of colonic regulatory T cells by indigenous Clostridium species | Q29547701 | ||
| An immunomodulatory molecule of symbiotic bacteria directs maturation of the host immune system | Q29614267 | ||
| Cytokeratins mediate epithelial innate defense through their antimicrobial properties | Q29871126 | ||
| Lipids of human meibum: mass-spectrometric analysis and structural elucidation | Q33437661 | ||
| Role of SFB in autoimmune arthritis: an example of regulation of autoreactive T cell sensitivity in the gut | Q33779273 | ||
| Diversity of bacteria at healthy human conjunctiva | Q33899793 | ||
| Neuroinflammation in glaucoma: A new opportunity. | Q39153080 | ||
| Differential roles of segmented filamentous bacteria and clostridia in development of the intestinal immune system. | Q39613039 | ||
| Role of Microbiota in Strengthening Ocular Mucosal Barrier Function Through Secretory IgA. | Q40053578 | ||
| Probiotics in Asthma and Allergy Prevention. | Q40086192 | ||
| An Ocular Commensal Protects against Corneal Infection by Driving an Interleukin-17 Response from Mucosal γδ T Cells | Q40134258 | ||
| The prenatal use of antibiotics and the development of allergic disease in one year old infants. A preliminary study. | Q40473429 | ||
| GAKG-RGEKG an Epitope That Provokes Immune Cross-Reactivity between Prevotella sp. and Human Collagen: Evidence of Molecular Mimicry in Chronic Periodontitis. | Q40972834 | ||
| Short chain fatty acids ameliorate immune-mediated uveitis partially by altering migration of lymphocytes from the intestine. | Q41718001 | ||
| Two rheumatoid arthritis-specific autoantigens correlate microbial immunity with autoimmune responses in joints | Q42644114 | ||
| Role of Th17 cells in the immunopathogenesis of dry eye disease | Q42694095 | ||
| Germ-free C57BL/6J mice are resistant to high-fat-diet-induced insulin resistance and have altered cholesterol metabolism. | Q42931889 | ||
| Distinct Microbial Communities Trigger Colitis Development upon Intestinal Barrier Damage via Innate or Adaptive Immune Cells. | Q43533623 | ||
| Conjunctiva-associated lymphoid tissue in avian mucosal immunity | Q44508241 | ||
| HLA associations and ancestry in Vogt-Koyanagi-Harada disease and sympathetic ophthalmia | Q44585626 | ||
| Involvement of a gut-retina axis in protection against dietary glycemia-induced age-related macular degeneration. | Q44870873 | ||
| The Influence of Age and Sex on Ocular Surface Microbiota in Healthy Adults | Q46249643 | ||
| ATP drives lamina propria T(H)17 cell differentiation | Q46419573 | ||
| Caesarean section delivery and the risk of allergic disorders in childhood | Q47688830 | ||
| Segmented Filamentous Bacteria Provoke Lung Autoimmunity by Inducing Gut-Lung Axis Th17 Cells Expressing Dual TCRs | Q47717478 | ||
| The Pathophysiology of Dry Eye Disease: What We Know and Future Directions for Research | Q47884949 | ||
| Commensal microbiota and myelin autoantigen cooperate to trigger autoimmune demyelination. | Q48819558 | ||
| Human corneal epithelial cells produce antimicrobial peptides LL-37 and β-defensins in response to heat-killed Candida albicans. | Q50102816 | ||
| Lymphoid tissue genesis induced by commensals through NOD1 regulates intestinal homeostasis. | Q52590127 | ||
| Sex differences in the gut microbiome drive hormone-dependent regulation of autoimmunity. | Q54468190 | ||
| Extraintestinal Manifestations of Inflammatory Bowel Disease. | Q55206226 | ||
| Birdshot retinochoroidopathy associated with HLA-A29 antigen and immune responsiveness to retinal S-antigen | Q72048520 | ||
| Conjunctiva-associated lymphoid tissue in the human eye | Q73751782 | ||
| The definition and classification of dry eye disease: report of the Definition and Classification Subcommittee of the International Dry Eye WorkShop (2007) | Q80347907 | ||
| Extraintestinal manifestations of inflammatory bowel disease | Q84802516 | ||
| The genus corynebacterium and other medically relevant coryneform-like bacteria | Q34290565 | ||
| Microbiota-Dependent Activation of an Autoreactive T Cell Receptor Provokes Autoimmunity in an Immunologically Privileged Site | Q34490115 | ||
| Bacterial infection in scarring trachoma | Q34824168 | ||
| Conjunctival inflammation in thrombospondin-1 deficient mouse model of Sjögren's syndrome | Q35006085 | ||
| Identification of torque teno virus in culture-negative endophthalmitis by representational deep DNA sequencing | Q35118768 | ||
| Role of IL-17 and Th17 cells in herpes simplex virus-induced corneal immunopathology. | Q35147745 | ||
| Characterization of Langerin-expressing dendritic cell subsets in the normal cornea | Q35220947 | ||
| Considerations in understanding the ocular surface microbiome | Q35226810 | ||
| Randomized trial of peanut consumption in infants at risk for peanut allergy | Q35559718 | ||
| Changes in the Eye Microbiota Associated with Contact Lens Wearing | Q35967119 | ||
| Defining the normal core microbiome of conjunctival microbial communities | Q35996436 | ||
| The interaction between host genetics and the microbiome in the pathogenesis of spondyloarthropathies | Q36010669 | ||
| Gut Microbial Alterations Associated With Protection From Autoimmune Uveitis | Q36077640 | ||
| Critical role for mast cells in interleukin-1β-driven skin inflammation associated with an activating mutation in the nlrp3 protein | Q36137849 | ||
| Paucibacterial Microbiome and Resident DNA Virome of the Healthy Conjunctiva | Q36152418 | ||
| Homeostatic Immunity and the Microbiota | Q36351062 | ||
| Effect of desiccating environmental stress versus systemic muscarinic AChR blockade on dry eye immunopathogenesis | Q36758312 | ||
| Altered Mucosal Microbiome Diversity and Disease Severity in Sjögren Syndrome | Q36806556 | ||
| Microbial antigen mimics activate diabetogenic CD8 T cells in NOD mice | Q37272130 | ||
| Aldehyde dehydrogenase inhibition blocks mucosal fibrosis in human and mouse ocular scarring | Q37277234 | ||
| Impact of Microbiome on Ocular Health | Q37370213 | ||
| A mutation in the Nlrp3 gene causing inflammasome hyperactivation potentiates Th17 cell-dominant immune responses | Q37393022 | ||
| Reversible microbial colonization of germ-free mice reveals the dynamics of IgA immune responses | Q37581953 | ||
| Antigen-presenting cells are stratified within normal human corneas and are rapidly mobilized during ex vivo viral infection | Q37602848 | ||
| Rapamycin Eye Drops Suppress Lacrimal Gland Inflammation In a Murine Model of Sjögren's Syndrome. | Q37610134 | ||
| Oral administration of Clostridium butyricum CGMCC0313-1 inhibits β-lactoglobulin-induced intestinal anaphylaxis in a mouse model of food allergy | Q37661593 | ||
| Age-related spontaneous lacrimal keratoconjunctivitis is accompanied by dysfunctional T regulatory cells | Q37737497 | ||
| The impact of the microbiota on the pathogenesis of IBD: lessons from mouse infection models | Q37771861 | ||
| Substance P differentially stimulates IL-8 synthesis in human corneal epithelial cells. | Q38307189 | ||
| The microbiome, HLA, and the pathogenesis of uveitis | Q38586936 | ||
| Temporal Stability and Composition of the Ocular Surface Microbiome | Q38602951 | ||
| Treg-recruiting microspheres prevent inflammation in a murine model of dry eye disease. | Q38787674 | ||
| Emerging therapeutics for ocular surface disease | Q38943854 | ||
| P433 | issue | 11 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | microbiome | Q1330402 |
| eye disease | Q3041498 | ||
| P304 | page(s) | e1800046 | |
| P577 | publication date | 2018-10-05 | |
| P1433 | published in | BioEssays | Q4914614 |
| P1476 | title | Visions of Eye Commensals: The Known and the Unknown About How the Microbiome Affects Eye Disease | |
| P478 | volume | 40 |
| Q92784032 | Chloramphenicol Resurrected: A Journey from Antibiotic Resistance in Eye Infections to Biofilm and Ocular Microbiota |
| Q90310445 | Do epigenetic changes caused by commensal microbiota contribute to development of ocular disease? A review of evidence |
| Q92323943 | NLRP3, NLRP12, and IFI16 Inflammasomes Induction and Caspase-1 Activation Triggered by Virulent HSV-1 Strains Are Associated With Severe Corneal Inflammatory Herpetic Disease |
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