Jorge Tejada scite author profile

Understanding the functional consequences of genetic variation, and how it affects complex human disease and quantitative traits, remains a critical challenge for biomedicine. We present an analysis of RNA sequencing data from 1641 samples across 43 tissues from 175 individuals, generated as part of the pilot phase of the Genotype-Tissue Expression (GTEx) project. We describe the landscape of gene expression across tissues, catalog thousands of tissue-specific and shared regulatory expression quantitative trait loci (eQTL) variants, describe complex network relationships, and identify signals from genome-wide association studies explained by eQTLs. These findings provide a systematic understanding of the cellular and biological consequences of human genetic variation and of the heterogeneity of such effects among a diverse set of human tissues.

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Synchronized age-related gene expression changes across multiple tissues in human and the link to complex diseases

Yang¹,

Huang²,

Petralia³

et al. 2015

Sci Rep

200

168

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Aging is one of the most important biological processes and is a known risk factor for many age-related diseases in human. Studying age-related transcriptomic changes in tissues across the whole body can provide valuable information for a holistic understanding of this fundamental process. In this work, we catalogue age-related gene expression changes in nine tissues from nearly two hundred individuals collected by the Genotype-Tissue Expression (GTEx) project. In general, we find the aging gene expression signatures are very tissue specific. However, enrichment for some well-known aging components such as mitochondria biology is observed in many tissues. Different levels of cross-tissue synchronization of age-related gene expression changes are observed, and some essential tissues (e.g., heart and lung) show much stronger “co-aging” than other tissues based on a principal component analysis. The aging gene signatures and complex disease genes show a complex overlapping pattern and only in some cases, we see that they are significantly overlapped in the tissues affected by the corresponding diseases. In summary, our analyses provide novel insights to the co-regulation of age-related gene expression in multiple tissues; it also presents a tissue-specific view of the link between aging and age-related diseases.

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Vascular casts demonstrate microcirculatory insufficiency in acute frostbite

et al. 1987

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Medium- and long-term survival after pacemaker implant: Improved survival with right ventricular outflow tract pacing

Vanerio

Vidal²,

Banizi³

et al. 2008

J Interv Card Electrophysiol

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Jorge Tejada

The Genotype-Tissue Expression (GTEx) pilot analysis: Multitissue gene regulation in humans

Synchronized age-related gene expression changes across multiple tissues in human and the link to complex diseases

Vascular casts demonstrate microcirculatory insufficiency in acute frostbite

Medium- and long-term survival after pacemaker implant: Improved survival with right ventricular outflow tract pacing

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