Using methylation patterns in humans to identify genetic regions enabling rapid adaptation to environmental pressures.

Matt Silver (primary)
Department of Population Health
London School Hygiene and Tropical Medicine
Garrett Hellenthal (secondary)
Genetics, Evolution and Environment
University College London

Abstract

While DNA takes a long time to evolve, the epigenetic programming that activates and silences our DNA is more malleable. Thus humans can exploit epigenetics to adjust rapidly to changing environments, by activating genes that facilitate adaptation to pathogens and climates, etc. Consistent with this, some genomic regions show highly variable methylation across individuals, with evidence that such variation is controlled by alleles at specific genetic loci. This project will develop statistical software to identify such loci and determine whether they are undergoing selection, applying it to unpublished genome-wide methylation and genotype data from over 250 Gambians and >700 Indians.


References

1. Scheinfeldt & Tishkoff (2013), Nature Reviews Genetics, 14:692-702
2. Silver et al (2015), FASEB J, 29:3426-35
3. Van Baak et al (2018), Genome Biology, 19:2
4. Chandak, Silver et al (2017), BMC Nutrition, 3:81
5. Ek et al (2018), Human Molecular Genetics, 27(5):799-810


BBSRC Area
Genes, development and STEM* approaches to biology
Area of Biology
EvolutionGenetics
Techniques & Approaches
GeneticsMathematics / StatisticsSimulation / Modelling