Kent Shefchek scite author profile

The correlation of phenotypic outcomes with genetic variation and environmental factors is a core pursuit in biology and biomedicine. Numerous challenges impede our progress: patient phenotypes may not match known diseases, candidate variants may be in genes that have not been characterized, model organisms may not recapitulate human or veterinary diseases, filling evolutionary gaps is difficult, and many resources must be queried to find potentially significant genotype–phenotype associations. Non-human organisms have proven instrumental in revealing biological mechanisms. Advanced informatics tools can identify phenotypically relevant disease models in research and diagnostic contexts. Large-scale integration of model organism and clinical research data can provide a breadth of knowledge not available from individual sources and can provide contextualization of data back to these sources. The Monarch Initiative (monarchinitiative.org) is a collaborative, open science effort that aims to semantically integrate genotype–phenotype data from many species and sources in order to support precision medicine, disease modeling, and mechanistic exploration. Our integrated knowledge graph, analytic tools, and web services enable diverse users to explore relationships between phenotypes and genotypes across species.

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The Monarch Initiative in 2019: an integrative data and analytic platform connecting phenotypes to genotypes across species

Shefchek

et al. 2019

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In biology and biomedicine, relating phenotypic outcomes with genetic variation and environmental factors remains a challenge: patient phenotypes may not match known diseases, candidate variants may be in genes that haven’t been characterized, research organisms may not recapitulate human or veterinary diseases, environmental factors affecting disease outcomes are unknown or undocumented, and many resources must be queried to find potentially significant phenotypic associations. The Monarch Initiative (https://monarchinitiative.org) integrates information on genes, variants, genotypes, phenotypes and diseases in a variety of species, and allows powerful ontology-based search. We develop many widely adopted ontologies that together enable sophisticated computational analysis, mechanistic discovery and diagnostics of Mendelian diseases. Our algorithms and tools are widely used to identify animal models of human disease through phenotypic similarity, for differential diagnostics and to facilitate translational research. Launched in 2015, Monarch has grown with regards to data (new organisms, more sources, better modeling); new API and standards; ontologies (new Mondo unified disease ontology, improvements to ontologies such as HPO and uPheno); user interface (a redesigned website); and community development. Monarch data, algorithms and tools are being used and extended by resources such as GA4GH and NCATS Translator, among others, to aid mechanistic discovery and diagnostics.

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KG-COVID-19: A Framework to Produce Customized Knowledge Graphs for COVID-19 Response

et al. 2021

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Navigating the Phenotype Frontier: The Monarch Initiative

McMurry

Köhler

Washington

et al. 2016

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The principles of genetics apply across the entire tree of life. At the cellular level we share biological mechanisms with species from which we diverged millions, even billions of years ago. We can exploit this common ancestry to learn about health and disease, by analyzing DNA and protein sequences, but also through the observable outcomes of genetic differences, i.e. phenotypes. To solve challenging disease problems we need to unify the heterogeneous data that relates genomics to disease traits. Without a big-picture view of phenotypic data, many questions in genetics are difficult or impossible to answer. The Monarch Initiative (https://monarchinitiative.org) provides tools for genotype-phenotype analysis, genomic diagnostics, and precision medicine across broad areas of disease.

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Genome Sequence of Enterobacter radicincitans DSM16656 ^T , a Plant Growth-Promoting Endophyte

et al. 2012

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Kent Shefchek

The Monarch Initiative: an integrative data and analytic platform connecting phenotypes to genotypes across species

The Monarch Initiative in 2019: an integrative data and analytic platform connecting phenotypes to genotypes across species

KG-COVID-19: A Framework to Produce Customized Knowledge Graphs for COVID-19 Response

Navigating the Phenotype Frontier: The Monarch Initiative

Genome Sequence of Enterobacter radicincitans DSM16656 ^T , a Plant Growth-Promoting Endophyte

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Kent Shefchek

The Monarch Initiative: an integrative data and analytic platform connecting phenotypes to genotypes across species

The Monarch Initiative in 2019: an integrative data and analytic platform connecting phenotypes to genotypes across species

KG-COVID-19: A Framework to Produce Customized Knowledge Graphs for COVID-19 Response

Navigating the Phenotype Frontier: The Monarch Initiative

Genome Sequence of Enterobacter radicincitans DSM16656 T , a Plant Growth-Promoting Endophyte

Contact Info

Product

Resources

About

Genome Sequence of Enterobacter radicincitans DSM16656 ^T , a Plant Growth-Promoting Endophyte