Author:
Sommer Alice J.,Okonkwo Jude,Monteiro Jonathan,Bind Marie-Abèle C.
Abstract
AbstractEpigenetic sex differences and their resulting implications for human health have been studied for about a decade. The objective of this paper is to use permutation-based inference and a new ranked-based test statistic to identify sex-based epigenetic differences in the human DNA methylome. In particular, we examine whether we could identify separations between the female and male distributions of DNA methylation across hundred of thousands CpG sites in two independent cohorts, the Swedish Adoption Twin study and the Lamarck study. Based on Fisherian p-values, we set a threshold for methylation differences “worth further scrutiny”. At this threshold, we were able to confirm previously-found CpG sites that stratify with respect to sex. These CpG sites with sex differences in DNA methylation should be further investigated for their possible contribution to various physiological and pathological functions in the human body. We followed-up our statistical analyses with a literature review in order to inform the proposed disease implications for the loci we uncovered.
Funder
National Institutes of Health
Publisher
Springer Science and Business Media LLC
Reference44 articles.
1. Graveley, B. R. Alternative splicing: Increasing diversity in the proteomic world. Trends Genet. 17(2), 100–107 (2001).
2. Peaston, A. E. & Whitelaw, E. Epigenetics and phenotypic variation in mammals. Mamm. Genome 17(5), 365–374 (2006).
3. Daniel Francis Deegan and Nora Engel. Sexual dimorphism in the age of genomics: How, when, where. Front. Cell Dev. Biol. 7, 186 (2019).
4. ...Singmann, P. et al. Characterization of whole-genome autosomal differences of DNA methylation between men and women. Epigenet. Chromatin 8, 43 (2015).
5. Gatev, E. et al. Autosomal sex-associated co-methylated regions predict biological sex from DNA methylation. Nucleic Acids Res. 49(16), 9097–9116 (2021).