J. Gary Wheeler scite author profile

The Genotype-Tissue Expression (GTEx) project was established to characterize genetic effects on the transcriptome across human tissues and to link these regulatory mechanisms to trait and disease associations. Here, we present analyses of the version 8 data, examining 15,201 RNA-sequencing samples from 49 tissues of 838 postmortem donors. We comprehensively characterize genetic associations for gene expression and splicing in cis and trans, showing that regulatory associations are found for almost all genes, and describe the underlying molecular mechanisms and their contribution to allelic heterogeneity and pleiotropy of complex traits. Leveraging the large diversity of tissues, we provide insights into the tissue specificity of genetic effects and show that cell type composition is a key factor in understanding gene regulatory mechanisms in human tissues.

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Severe Community-acquired Pneumonia Due toStaphylococcus aureus, 2003–04 Influenza Season

Hageman

Uyeki

Francis

et al. 2006

Emerg. Infect. Dis.

365

282

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Co-expression networks reveal the tissue-specific regulation of transcription and splicing

et al. 2017

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Gene co-expression networks capture biologically important patterns in gene expression data, enabling functional analyses of genes, discovery of biomarkers, and interpretation of genetic variants. Most network analyses to date have been limited to assessing correlation between total gene expression levels in a single tissue or small sets of tissues. Here, we built networks that additionally capture the regulation of relative isoform abundance and splicing, along with tissue-specific connections unique to each of a diverse set of tissues. We used the Genotype-Tissue Expression (GTEx) project v6 RNA sequencing data across 50 tissues and 449 individuals. First, we developed a framework called Transcriptome-Wide Networks (TWNs) for combining total expression and relative isoform levels into a single sparse network, capturing the interplay between the regulation of splicing and transcription. We built TWNs for 16 tissues and found that hubs in these networks were strongly enriched for splicing and RNA binding genes, demonstrating their utility in unraveling regulation of splicing in the human transcriptome. Next, we used a Bayesian biclustering model that identifies network edges unique to a single tissue to reconstruct Tissue-Specific Networks (TSNs) for 26 distinct tissues and 10 groups of related tissues. Finally, we found genetic variants associated with pairs of adjacent nodes in our networks, supporting the estimated network structures and identifying 20 genetic variants with distant regulatory impact on transcription and splicing. Our networks provide an improved understanding of the complex relationships of the human transcriptome across tissues.

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Atopic dermatitis and food hypersensitivity reactions

Burks

James

Hiegel

et al. 1998

The Journal of Pediatrics

261

117

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High COVID-19 Attack Rate Among Attendees at Events at a Church — Arkansas, March 2020

James¹,

Eagle²,

Phillips³

et al. 2020

MMWR Morb. Mortal. Wkly. Rep.

132

106

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J. Gary Wheeler

The GTEx Consortium atlas of genetic regulatory effects across human tissues

Severe Community-acquired Pneumonia Due toStaphylococcus aureus, 2003–04 Influenza Season

Co-expression networks reveal the tissue-specific regulation of transcription and splicing

Atopic dermatitis and food hypersensitivity reactions

High COVID-19 Attack Rate Among Attendees at Events at a Church — Arkansas, March 2020

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