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The Musculoskeletal Knowledge Portal: Making Omics Data Useful to the Broader Scientific Community

Research output: Contribution to journalReview article

Douglas P. Kiel, John P. Kemp, Fernando Rivadeneira, Jennifer J. Westendorf, David Karasik, Emma L. Duncan, Yuuki Imai, Ralph Müller, Jason Flannick, Lynda Bonewald, Noël Burtt

Original languageEnglish
Pages (from-to)1626-1633
Number of pages8
JournalJournal of Bone and Mineral Research
Issue number9
Published1 Sep 2020

King's Authors


The development of high-throughput genotyping technologies and large biobank collections, complemented with rapid methodological advances in statistical genetics, has enabled hypothesis-free genome-wide association studies (GWAS), which have identified hundreds of genetic variants across many loci associated with musculoskeletal conditions. Similarly, basic scientists have valuable molecular cellular and animal data based on musculoskeletal disease that would be enhanced by being able to determine the human translation of their findings. By integrating these large-scale human genomic musculoskeletal datasets with complementary evidence from model organisms, new and existing genetic loci can be statistically fine-mapped to plausibly causal variants, candidate genes, and biological pathways. Genes and pathways identified using this approach can be further prioritized as drug targets, including side-effect profiling and the potential for new indications. To bring together these big data, and to realize the vision of creating a knowledge portal, the International Federation of Musculoskeletal Research Societies (IFMRS) established a working group to collaborate with scientists from the Broad Institute to create the Musculoskeletal Knowledge Portal (MSK-KP)( The MSK consolidates omics datasets from humans, cellular experiments, and model organisms into a central repository that can be accessed by researchers. The vision of the MSK-KP is to enable better understanding of the biological mechanisms underlying musculoskeletal disease and apply this knowledge to identify and develop new disease interventions.

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