rs113996630 - PPP2R5C

Magnitude 2.2 · 2 studies on file

Reported associations

  • Metabolome-wide association identifies ferredoxin-1 (FDX1) as a determinant of cholesterol metabolism and cardiovascular risk in Asian populations. - Nature cardiovascular research (2025) · Sadhu N, Dalan R, Jain PR, Lee CJM, Pakkiri LS, Tay KY, Mina TH, Low D, Min Y, Ackers-Johnson M, Thi TT, Kota VG, Shi Y, Liu Y, Yu H, Lai V, Yang Y, Tay D, Ng HK, Wang X, Wong KE, Lam M, Guan XL, Bertin N, Wong E, Best J, Sarangarajan R, Elliott P, Riboli E, Lee J, Lee ES, Ngeow J, Tan P, Cheung C, Drum CL, Foo RS, Michelotti GA, Yu H, Sheridan PA, Loh M, Chambers JC · PubMed 40360795

    The burden of cardiovascular disease is rising in the Asia-Pacific region, in contrast to falling cardiovascular disease mortality rates in Europe and North America. Here we perform quantification of 883 metabolites by untargeted mass spectroscopy in 8,124 Asian adults and investigate their relationships with carotid intima media thickness, a marker of atherosclerosis. Plasma concentrations of 3beta-hydroxy-5-cholestenoate (3BH5C), a cholesterol metabolite, were inversely associated with carotid intima media thickness, and Mendelian randomization studies supported a causal relationship between 3BH5C and coronary artery disease. The observed effect size was 5- to 6-fold higher in Asians than Europeans. Colocalization analyses indicated the presence of a shared causal variant between 3BH5C p

  • Genome-wide pQTL analysis of protein expression regulatory networks in the human liver - Unknown journal (n.d.) · Unknown authors · PubMed 32778093

    ABSTRACT: Background Previous expression quantitative trait loci (eQTL) studies have identified thousands of genetic variants to be associated with gene expression at the mRNA level in the human liver. However, protein expression often correlates poorly with mRNA levels. Thus, protein quantitative trait loci (pQTL) study is required to identify genetic variants that regulate protein expression in human livers. Results We conducted a genome-wide pQTL study in 287 normal human liver samples and identified 900 local pQTL variants and 4026 distant pQTL variants. We further discovered 53 genome hotspots of pQTL variants. Transcriptional region mapping analysis showed that 1133 pQTL variants are in transcriptional regulatory regions. Genomic region enrichment analysis of the identified pQTL vari


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