Included in eqtl, genomewide_association themes

Altmetric score 21.6 (top 4.9%)

Author: Alfonso Buil
Editor:
Research area: genomics
Type:

Open peer-review

Review content is open, signing review is optional.

Quantifying the degree of sharing of genetic and non-genetic causes of gene expression variability across four tissues.


Created on 13th May 2016

Alfonso Buil; Ana ViƱuela; Andrew Brown; Matthew Davies; Ismael Padioleau; Deborah Bielser; Luciana Romano; Daniel Glass; Paola Di Meglio; Kerrin Small; Timothy Spector; Emmanouil T Dermitzakis;


Gene expression can provide biological mechanisms which underlie genetic associations with complex traits and diseases, but often the most relevant tissue for the trait is inaccessible and a proxy is the only alternative. Here, we investigate shared and tissue specific patterns of variability in expression in multiple tissues, to quantify the degree of sharing of causes (genetic or non-genetic) of variability in gene expression among tissues. Using gene expression in ~800 female twins from the TwinsUK cohort in skin, fat, whole blood and lymphoblastoid cell lines (LCLs), we identified 9166 significant cis-eQTLs in fat, 9551 in LCLs, 8731 in skin and 5313 in blood (1% FDR). We observed up to 80% of cis-eQTLs are shared in pairs of tissues. In addition, the cis genetic correlation between tissues is > 90% for 35% of the genes, indicating for these genes a largely tissue-shared component of cis regulation. However, variance components show that cis genetic signals explain only a small fraction of the variation in expression, with from 67-87% of the variance explained by environmental factors, and 53% of the genetic effects occurring in trans. We observe a trans genetic correlation of 0 for all genes except a few which show correlation between fat and skin expression. The environmental effects are also observed to be entirely tissue specific, despite related tissues largely sharing exposures. These results demonstrate that patterns of gene expression are largely tissue specific, strongly supporting the need to study higher order regulatory interactions in the appropriate tissue context with large samples sizes and diversity of environmental contexts.

Show more

Review Summary

This paper has 0 completed reviews and 0 reviews in progress.

# Status Date



Name:
Email: