Identification of cis- and trans-regulatory variation modulating microRNA expression levels in human fibroblasts
MicroRNAs (miRNAs) are regulatory noncoding RNAs that affect the production of a significant fraction of human mRNAs via post-transcriptional regulation. Interindividual variation of the miRNA expression levels is likely to influence the expression of miRNA target genes and may therefore contribute to phenotypic differences in humans, including susceptibility to common disorders. The extent to which miRNA levels are genetically controlled is largely unknown. In this report, we assayed the expression levels of miRNAs in primary fibroblasts from 180 European newborns of the GenCord project and performed association analysis to identify eQTLs (expression quantitative traits loci). We detected robust expression for 121 miRNAs out of 365 interrogated. We have identified significant cis- (10%) and trans- (11%) eQTLs. Furthermore, we detected one genomic locus (rs1522653) that influences the expression levels of five miRNAs, thus unraveling a novel mechanism for coregulation of miRNA expression
- Type: Other
- Archiver: European Genome-Phenome Archive (EGA)
Click on a Dataset ID in the table below to learn more, and to find out who to contact about access to these data
Dataset ID | Description | Technology | Samples |
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EGAD00000000027 | Ilumina HumanHap550-2v3_B-Beadstudio | 176 |
Publications | Citations |
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Common regulatory variation impacts gene expression in a cell type-dependent manner.
Science 325: 2009 1246-1250 |
529 |
Identification of cis- and trans-regulatory variation modulating microRNA expression levels in human fibroblasts.
Genome Res 21: 2011 68-73 |
56 |
A statistical framework for joint eQTL analysis in multiple tissues.
PLoS Genet 9: 2013 e1003486 |
144 |
The genomic landscape of human cellular circadian variation points to a novel role for the signalosome.
Elife 6: 2017 e24994 |
6 |