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Literature DB >> 32937138

Identification of a Core Module for Bone Mineral Density through the Integration of a Co-expression Network and GWAS Data.

Olivia L Sabik¹, Gina M Calabrese², Eric Taleghani², Cheryl L Ackert-Bicknell³, Charles R Farber⁴.

Abstract

The "omnigenic" model of the genetic architecture of complex traits proposed two categories of causal genes: core and peripheral. Core genes are hypothesized to directly regulate disease and may serve as therapeutic targets. Using a cell-type- and time-point-specific gene co-expression network for mineralizing osteoblasts, we identify a co-expression module enriched for genes implicated by bone mineral density (BMD) genome-wide association studies (GWASs), correlated with in vitro osteoblast mineralization and associated with skeletal phenotypes in human monogenic disease and mouse knockouts. Four genes from this module (B4GALNT3, CADM1, DOCK9, and GPR133) are located within the BMD GWAS loci with colocalizing expression quantitative trait loci (eQTL) and exhibit altered BMD in mouse knockouts, suggesting that they are causal genetic drivers of BMD in humans. Our network-based approach identifies a "core" module for BMD and provides a resource for expanding our understanding of the genetics of bone mass.

Entities: Gene Species

Keywords: GWAS; bone mineral density; co-expression network; core genes; osteoporosis

Mesh：

Year: 2020 PMID： 32937138 PMCID： PMC8344123 DOI： 10.1016/j.celrep.2020.108145

Source DB: PubMed Journal: Cell Rep Impact factor: 9.423

62 in total

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2. A computational approach for identification of core modules from a co-expression network and GWAS data.

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6. A Core Omnigenic Non-coding Trait Governing Dex-Induced Osteoporotic Effects Identified Without DEXA.

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9. N⁶ -methyladenosine (m⁶ A) RNA modification of G protein-coupled receptor 133 increases proliferation of lung adenocarcinoma.

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