W. Robert Terry scite author profile

Background Season of birth influences allergy risk, however the biological mechanisms underlying this observation are unclear. The environment affects DNA methylation, with potentially long-lasting effects on gene expression and disease. This study examined whether DNA methylation could underlie the association between season of birth and allergy. Methods In a subset of 18-year-old participants from the Isle of Wight (IoW) birth cohort (n=367), the risks of birth season on allergic outcomes were estimated. Whole blood epigenome-wide DNA methylation was measured, and season-associated CpGs detected using a training-and-testing-based technique. Validation examined the 8-year-old Prevention and Incidence of Asthma and Mite Allergy (PIAMA) cohort. The relationships between DNA methylation, season of birth and allergy were examined. CpGs were analysed in IoW third generation cohort newborns. Results Autumn birth increased risk of eczema, relative to spring birth. Methylation at 92 CpGs showed association with season of birth in the epigenome-wide association study. In validation significantly more CpGs had the same directionality than expected by chance, and four were statistically significant. Season-associated methylation was enriched among networks relating to development, the cell cycle, and apoptosis. Twenty CpGs were nominally associated with allergic outcomes. Two CpGs were marginally on the causal pathway to allergy. Season-associated methylation was largely absent in newborns, suggesting it arises postnatally. Conclusions This study demonstrates that DNA methylation in adulthood is associated with season of birth, supporting the hypothesis that DNA methylation could mechanistically underlie the effect of season of birth on allergy, though other mechanisms are also likely to be involved.

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Filaggrin mutations increase allergic airway disease in childhood and adolescence through interactions with eczema and aeroallergen sensitization

Chan

Terry

Zhang

et al. 2018

Clin Experimental Allergy

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Time series analysis in acid rain modeling: Evaluation of filling missing values by linear interpolation

Terry

Lee

Kumar

1986

Atmospheric Environment (1967)

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Concurrent tool and production system design for a surface broach cutting tool: a knowledge-based systems approach

Terry

Karni

Huang

1992

International Journal of Production Research

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Computer aided design of a broaching process

Terry

Cutright

1986

Computers & Industrial Engineering

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W. Robert Terry

Association of season of birth with DNA methylation and allergic disease

Filaggrin mutations increase allergic airway disease in childhood and adolescence through interactions with eczema and aeroallergen sensitization

Time series analysis in acid rain modeling: Evaluation of filling missing values by linear interpolation

Concurrent tool and production system design for a surface broach cutting tool: a knowledge-based systems approach

Computer aided design of a broaching process

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