GenomeMUSter Mouse Genetic Variation Service Enables Multitrait, Multipopulation Data Integration and Analysis

Overview

Journal Genome Res

Specialty Genetics

Date 2024 Jan 30

PMID 38290977

Authors

Robyn L Ball

Molly A Bogue

Hongping Liang

Anuj Srivastava

David G Ashbrook

Anna Lamoureux

Matthew W Gerring

Alexander S Hatoum

Matthew J Kim

Hao He

Jake Emerson

Alexander K Berger

David O Walton

Keith Sheppard

Baha El Kassaby

Francisco Castellanos

Govindarajan Kunde-Ramamoorthy

Lu Lu

John Bluis

Sejal Desai

Beth A Sundberg

Gary Peltz

Zhuoqing Fang

Gary A Churchill

Robert W Williams

Arpana Agrawal

Carol J Bult

Vivek M Philip

Elissa J Chesler

Affiliations

Soon will be listed here.

Abstract

Hundreds of inbred mouse strains and intercross populations have been used to characterize the function of genetic variants that contribute to disease. Thousands of disease-relevant traits have been characterized in mice and made publicly available. New strains and populations including consomics, the collaborative cross, expanded BXD, and inbred wild-derived strains add to existing complex disease mouse models, mapping populations, and sensitized backgrounds for engineered mutations. The genome sequences of inbred strains, along with dense genotypes from others, enable integrated analysis of trait-variant associations across populations, but these analyses are hampered by the sparsity of genotypes available. Moreover, the data are not readily interoperable with other resources. To address these limitations, we created a uniformly dense variant resource by harmonizing multiple data sets. Missing genotypes were imputed using the Viterbi algorithm with a data-driven technique that incorporates local phylogenetic information, an approach that is extendable to other model organisms. The result is a web- and programmatically accessible data service called GenomeMUSter, comprising single-nucleotide variants covering 657 strains at 106.8 million segregating sites. Interoperation with phenotype databases, analytic tools, and other resources enable a wealth of applications, including multitrait, multipopulation meta-analysis. We show this in cross-species comparisons of type 2 diabetes and substance use disorder meta-analyses, leveraging mouse data to characterize the likely role of human variant effects in disease. Other applications include refinement of mapped loci and prioritization of strain backgrounds for disease modeling to further unlock extant mouse diversity for genetic and genomic studies in health and disease.

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