rs115106632 - EPN2
Magnitude 2.2 · 1 study on file
Reported associations
-
Decomposed interaction testing improves detection of genetic modifiers of the relationship of dietary omega-3 fatty acid intake and its plasma biomarkers with hsCRP in the UK Biobank - Unknown journal (n.d.) · Unknown authors · PubMed 40038624
ABSTRACT: Discovery and translation of gene-environment interactions (GxEs) influencing clinical outcomes is limited by low statistical power and poor mechanistic understanding. Molecular omics data may help address these limitations, but their incorporation into GxE testing requires principled analytic approaches. We focused on genetic modification of the established mechanistic link between dietary long-chain omega-3 fatty acid (dN3FA) intake, plasma N3FA (pN3FA), and chronic inflammation as measured by high sensitivity CRP (hsCRP). We considered an approach that decomposes the overall genetic effect modification into components upstream and downstream of a molecular mediator to increase the potential to discover gene-N3FA interactions. Simulations demonstrated improved power of the upst
Auto-generated from study metadata. AI-synthesised commentary is added when this entry is regenerated through content-service's LLM mode.
Lifestyle context
Concrete actions anchored to the cited research. We do not prescribe, we describe.
Diet
-
increase dietary omega-3 fatty acid intake Moderate
rs115106632 shows significant gene-diet interaction with omega-3 intake on C-reactive protein levels; carriers may benefit from optimized omega-3 for inflammation management
aim for 2-3 servings of fatty fish weekly or discuss supplementation with provider