about
Airborne microorganisms, endotoxin, and (1-->3)-ß-D-glucan exposure in greenhouses and assessment of respiratory symptoms among workersCD14, endotoxin, and asthma risk: actions and interactionsThe role of indoor allergens in the development of asthmaEnvironmental epigenetics and asthma: current concepts and call for studiesElucidation of pathways driving asthma pathogenesis: development of a systems-level analytic strategyVitamin D and allergic disease: sunlight at the end of the tunnel?Perinatal and early childhood environmental factors influencing allergic asthma immunopathogenesisMultiple microbial exposures in the home may protect against asthma or allergy in childhoodEndotoxin as a determinant of asthma and wheeze among rural dwelling children and adolescents: a case-control studyInterleukin-12 peripheral blood levels in asthmatic childrenGene-environment interactions in asthmaAssociation of CD14 -159 (-260C/T) polymorphism and asthma risk: an updated genetic meta-analysis studyGenetic variation in Ameloblastin is associated with caries in asthmatic children.Interactions between innate immunity genes and early-life risk factors in allergic rhinitis.Disaggregating asthma: Big investigation versus big data.Immunological and genetic aspects of asthma and allergy.A methodology to establish a database to study gene environment interactions for childhood asthma.Endotoxin exposure and childhood wheeze and asthma: a meta-analysis of observational studies.Gene-environment interactions influence airways function in laboratory animal workers.Effects of endotoxin exposure on childhood asthma risk are modified by a genetic polymorphism in ACAA1Stress and allergic diseases.Exposure to microbial agents in house dust and wheezing, atopic dermatitis and atopic sensitization in early childhood: a birth cohort study in rural areas.New insights into the epidemiology of childhood atopic dermatitis.Epithelial Cell Regulation of Allergic Diseases.Genetic and environmental contributions to allergen sensitization in a Chinese twin studyInfluence of C-159T SNP of the CD14 gene promoter on lung function in smokersGene-environment interactions in human disease: nuisance or opportunity?Assessing the validity of asthma associations for eight candidate genes and age at diagnosis effectsDishing the dirt on asthma: What we can learn from poor hygiene.TLR4 genotype and environmental LPS mediate RSV bronchiolitis through Th2 polarizationEarly identification of atopy in the prediction of persistent asthma in childrenAssociations of allergic sensitization and clinical phenotypes with innate immune response genes polymorphisms are modified by house dust mite allergen exposure.Relationship between air pollution, NFE2L2 gene polymorphisms and childhood asthma in a Hungarian population.Early Exposure to Respiratory Allergens by Placental Transfer and Breastfeeding.Allergen-specific IgE as a biomarker of exposure plus sensitization in inner-city adolescents with asthma.Association of vitamin D receptor gene polymorphisms and vitamin D levels with asthma and atopy in Cypriot adolescents: a case-control study.A case-control study of innate immunity pathway gene polymorphisms in Puerto Ricans reveals association of toll-like receptor 2 +596 variant with asthmaEarly life precursors, epigenetics, and the development of food allergyThe Toll-like receptor 5 ligand flagellin promotes asthma by priming allergic responses to indoor allergensA systematic review of CD14 and toll-like receptors in relation to asthma in Caucasian children.
P2860
Q23909388-76A1E4B7-9B33-4C44-862F-665F69784B72Q24648536-D4AB07D4-6E30-49D7-A53E-1212A3C37E56Q24653862-9F75B675-778F-4AEF-8058-879A90C0E52BQ24654659-3571F532-7A9E-4B29-8CE7-9EFD189BCBB1Q26824562-40CED5C7-A151-4276-8C87-4E10E6009098Q26852355-A20531B9-1052-4A57-BFBF-F0D185475901Q26995085-1E430CB6-5903-465F-BB68-93D488BF2C11Q28386698-692D1539-BCA3-4031-9A46-7A15F0829239Q28393112-C594C5CE-6D48-4C85-A540-148A1CB97F4DQ28395738-1992C5DD-DC8B-4115-9D9F-91AC9D3B3F75Q28397200-63FBB90F-2F5D-430B-9D86-F4058BA9DD55Q28917123-A9B8C2FE-5D3E-4B5F-BB27-199020C858F1Q30577695-A6D3D55B-0440-4BF0-9029-793B94F7E5DDQ30639828-6136BB00-702E-4F4A-B376-BE07013D8AE4Q31143790-2F863E50-31DB-4DE8-8346-833441E55370Q33350872-E2C83EBA-FC4F-4754-86CE-06066353A78AQ33763915-64AD4096-6A1B-40B7-ABDC-EA9DD945B615Q33952876-1C825D9A-AE9C-4B00-A6D1-2B55732DD6B2Q34050109-217A524F-1C31-4597-83B6-1195F547C654Q34094442-40D5F4D4-8B3B-44DC-AC5D-3CD1EB00053AQ34151058-D9D55C0B-9539-43A3-99F2-058884E5C0A5Q34340422-98BA2722-5353-4A24-BD20-EDA31F0736AFQ34397465-9F777D66-58B8-4395-B12A-F1F0CF1198B0Q34537698-851E5292-2B76-4F01-975D-A7D10635B08BQ34605624-B486BB15-2D27-463E-B4E1-855B020CBDD8Q34658352-A92AB64A-92C5-4178-81F3-A5F6A6469EF1Q34777742-0787BAB7-2589-4B68-8045-842603F245C4Q34988858-5E86CBDA-A3B8-4A82-BE61-946E9806A0BCQ34999496-109B5A80-0E02-442E-85D6-B14EF3BB57C3Q35056722-77A66311-02BD-49EB-8DBB-3CF0321ABE37Q35633553-7D1458BE-FFC6-4C39-AD91-BB340976AC7DQ35691383-61CCB5FD-B9CF-40CA-9DE1-E596D18BFE32Q35700052-8A80DEBC-5F36-40F0-AEEE-2E271E6FC6F3Q35785049-922405F4-0BCF-4BCE-955C-8CCD859C006FQ35936386-5C8FE374-33B9-4302-BDB0-0ADCBE2C26DAQ36027309-220EFFB3-AE41-4FD4-B952-AB5454AF10B2Q36096390-BA203176-ED53-49BE-BF7B-8677330C82FEQ36228282-88CC74EA-6340-47D8-B855-233902B87ACAQ36385245-37E47129-A629-4289-A4D1-1F89AF1686A8Q36698136-911B1AAC-5790-465A-8291-50C47927462E
P2860
description
article
@en
im April 2006 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в серпні 2006
@uk
name
Endotoxin Exposure, CD14, and Allergic Disease
@en
Endotoxin Exposure, CD14, and Allergic Disease
@nl
type
label
Endotoxin Exposure, CD14, and Allergic Disease
@en
Endotoxin Exposure, CD14, and Allergic Disease
@nl
prefLabel
Endotoxin Exposure, CD14, and Allergic Disease
@en
Endotoxin Exposure, CD14, and Allergic Disease
@nl
P2860
P50
P1476
Endotoxin exposure, CD14, and ...... ween genes and the environment
@en
P2093
Sally L John
William E R Ollier
P2860
P304
P356
10.1164/RCCM.200509-1380OC
P407
P577
2006-04-13T00:00:00Z