The Mouse Phenome Database (MPD; phenome.jax.org) is unique and unparalleled as a repository of expertly curated, highly integrated and diverse mouse phenotype data, including significant amounts of data relevant to alcoholism, addiction, neurobehavioral processes, and other physiological domains. With the increased importance of integrative, systems-level genetics and other data integration initiatives in neuro-behavior and other biomedical fields, it will be ever more critical to rely on diverse dat that have been rigorously curated so that they may be reused with confidence, allowing researchers to build upon cumulative results and gain new insights. Understanding the complexity of diseases requires integration of data across diverse biological systems, types of data, and levels of scale. With the perspective and application of integrated complex trait studies, we can uncover relationships among these systems and take steps forward in realizing the common and distinct bases of disease. Complementary advances in bioinformatics and high-throughput assessment of brain, behavior, and biology have delivered technologies for rapidly identifying and characterizing the role of biological systems in behavioral processes, enabling the discovery of new molecular targets for investigation, diagnostics, and therapeutics. However, a major barrier to progress remains in the identification of the most valid, reliable and reproducible research models and methods for the study of human disease. Our overarching objectives are to understand the genomic bases of normal and abnormal human conditions through the mouse as a model organism. We propose to advance MPD, which has wide community support, and extend the impact of this data resource in response to emerging and continuing needs of the research community that relies on it. Specifically, we propose to upgrade the MPD system and acquire new data and data types; incorporate evolving technologies for archiving, integrating, and analyzing data; expand activities that promote data reproducibility within and across resources; and ensure interoperability of MPD with other public databases. Successful completion of our aims will enable MPD users to harness and integrate information from studies of mouse genetic and phenotypic diversity to identify mouse model systems for the study of complex human disease.
Data management, integration, analysis, and reuse are key to supporting discovery and inference of new knowledge to improve the predictive value of biological information in characterizing disease and identifying treatment strategies. Alcoholism and drug addiction are chronic diseases with limited treatment options, creating a significant legal, social, and public health burden. Historically, these disorders and many other complex diseases have been the subject of extensive research in mouse genetics. With the increased importance of holistic approaches to genetic analysis of complex traits, it will be ever more critical to rely on biological data across fields of study that have been rigorously curated, allowing researchers to build upon cumulative results and gain new insights. The Mouse Phenome Database is an established platform with wide community support for the public sharing of well-documented mouse phenotypic data, and will be enhanced with a new suite of tools to enable researchers to integrate information across these studies more fluidly. Through these efforts, we will facilitate identification of the underlying physiological and molecular mechanisms to help improve diagnostics and treatment outcomes in different individuals.
Bogue, Molly A; Grubb, Stephen C; Walton, David O et al. (2018) Mouse Phenome Database: an integrative database and analysis suite for curated empirical phenotype data from laboratory mice. Nucleic Acids Res 46:D843-D850 |
Bogue, Molly A; Peters, Luanne L; Paigen, Beverly et al. (2016) Accessing Data Resources in the Mouse Phenome Database for Genetic Analysis of Murine Life Span and Health Span. J Gerontol A Biol Sci Med Sci 71:170-7 |
Schoenrock, Sarah Adams; Oreper, Daniel; Young, Nancy et al. (2016) Ovariectomy results in inbred strain-specific increases in anxiety-like behavior in mice. Physiol Behav 167:404-412 |
Strong, Randy; Miller, Richard A; Antebi, Adam et al. (2016) Longer lifespan in male mice treated with a weakly estrogenic agonist, an antioxidant, an ?-glucosidase inhibitor or a Nrf2-inducer. Aging Cell 15:872-84 |
Wiltshire, T; Ervin, R B; Duan, H et al. (2015) Initial locomotor sensitivity to cocaine varies widely among inbred mouse strains. Genes Brain Behav 14:271-80 |
Bogue, Molly A; Churchill, Gary A; Chesler, Elissa J (2015) Collaborative Cross and Diversity Outbred data resources in the Mouse Phenome Database. Mamm Genome 26:511-20 |
Mostafavi, Sara; Ortiz-Lopez, Adriana; Bogue, Molly A et al. (2014) Variation and genetic control of gene expression in primary immunocytes across inbred mouse strains. J Immunol 193:4485-96 |
Grubb, Stephen C; Bult, Carol J; Bogue, Molly A (2014) Mouse phenome database. Nucleic Acids Res 42:D825-34 |
Crowley, James J; Kim, Yunjung; Szatkiewicz, Jin Peng et al. (2012) Genome-wide association mapping of loci for antipsychotic-induced extrapyramidal symptoms in mice. Mamm Genome 23:322-35 |
Maddatu, Terry P; Grubb, Stephen C; Bult, Carol J et al. (2012) Mouse Phenome Database (MPD). Nucleic Acids Res 40:D887-94 |
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