An Integrative Genomics Approach to the Reconstruction of Gene Networks in Segregating Populations

Overview

Journal Cytogenet Genome Res

Specialty Genetics

Date 2004 Jul 9

PMID 15237224

Citations 120

Authors

J Zhu

P Y Lum

J Lamb

D GuhaThakurta

S W Edwards

R Thieringer

J P Berger

M S Wu

J Thompson

A B Sachs

E E Schadt

Affiliations

Soon will be listed here.

Abstract

The reconstruction of genetic networks in mammalian systems is one of the primary goals in biological research, especially as such reconstructions relate to elucidating not only common, polygenic human diseases, but living systems more generally. Here we propose a novel gene network reconstruction algorithm, derived from classic Bayesian network methods, that utilizes naturally occurring genetic variations as a source of perturbations to elucidate the network. This algorithm incorporates relative transcript abundance and genotypic data from segregating populations by employing a generalized scoring function of maximum likelihood commonly used in Bayesian network reconstruction problems. The utility of this novel algorithm is demonstrated via application to liver gene expression data from a segregating mouse population. We demonstrate that the network derived from these data using our novel network reconstruction algorithm is able to capture causal associations between genes that result in increased predictive power, compared to more classically reconstructed networks derived from the same data.

Citing Articles

A multiomic network approach uncovers disease modifying mechanisms of inborn errors of metabolism.

Bender A, Ranea-Robles P, Williams E, Williams E, Mirzaian M, Heimel J bioRxiv. 2025; .

PMID: 40027804 PMC: 11870498. DOI: 10.1101/2025.02.19.639093.

Systems genetics analysis of human body fat distribution genes identifies adipocyte processes.

Reed J, Huang J, Li Y, Ma L, Banka D, Wabitsch M Life Sci Alliance. 2024; 7(7.

PMID: 38702075 PMC: 11068934. DOI: 10.26508/lsa.202402603.

Systems genetics approaches for understanding complex traits with relevance for human disease.

Allayee H, Farber C, Seldin M, Williams E, James D, Lusis A Elife. 2023; 12.

PMID: 37962168 PMC: 10645424. DOI: 10.7554/eLife.91004.

SCING: Inference of robust, interpretable gene regulatory networks from single cell and spatial transcriptomics.

Littman R, Cheng M, Wang N, Peng C, Yang X iScience. 2023; 26(7):107124.

PMID: 37434694 PMC: 10331489. DOI: 10.1016/j.isci.2023.107124.

Network Preservation Analysis Reveals Dysregulated Metabolic Pathways in Human Vascular Smooth Muscle Cell Phenotypic Switching.

Perry R, Albarracin D, Aherrahrou R, Civelek M Circ Genom Precis Med. 2023; 16(4):372-381.

PMID: 37387208 PMC: 10434832. DOI: 10.1161/CIRCGEN.122.003781.