Genomic Variation and Its Impact on Gene Expression in Drosophila melanogaster

Date

2012

Authors

Massouras, Andreas
Waszak, Sebastian M
Albarca-Aquilera, Monica
Hens, Korneel
Holcombe, Wiebke
Ayroles, Julien F.
Dermitzakis, Emmanouil
Stone, Eric
Jensen, Jeffrey D
Mackay, Trudy FC

Journal Title

Journal ISSN

Volume Title

Publisher

Public Library of Science

Abstract

Understanding the relationship between genetic and phenotypic variation is one of the great outstanding challenges in biology. To meet this challenge, comprehensive genomic variation maps of human as well as of model organism populations are required. Here, we present a nucleotide resolution catalog of single-nucleotide, multi-nucleotide, and structural variants in 39 Drosophila melanogaster Genetic Reference Panel inbred lines. Using an integrative, local assembly-based approach for variant discovery, we identify more than 3.6 million distinct variants, among which were more than 800,000 unique insertions, deletions (indels), and complex variants (1 to 6,000 bp). While the SNP density is higher near other variants, we find that variants themselves are not mutagenic, nor are regions with high variant density particularly mutation-prone. Rather, our data suggest that the elevated SNP density around variants is mainly due to population-level processes. We also provide insights into the regulatory architecture of gene expression variation in adult flies by mapping cis-expression quantitative trait loci (cis-eQTLs) for more than 2,000 genes. Indels comprise around 10% of all cis-eQTLs and show larger effects than SNP cis-eQTLs. In addition, we identified two-fold more gene associations in males as compared to females and found that most cis-eQTLs are sex-specific, revealing a partial decoupling of the genomic architecture between the sexes as well as the importance of genetic factors in mediating sex-biased gene expression. Finally, we performed RNA-seq-based allelic expression imbalance analyses in the offspring of crosses between sequenced lines, which revealed that the majority of strong cis-eQTLs can be validated in heterozygous individuals.

Description

Keywords

Keywords: animal tissue; article; cis expression quantitative trait locus mapping; controlled study; Drosophila melanogaster; female; gene expression; gene frequency; genetic association; genetic identification; genetic polymorphism; genetic variability; genomics;

Citation

Source

PLoS Genetics

Type

Journal article

Book Title

Entity type

Access Statement

Open Access

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