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      2. Our impact Discover the impact of our research on human health.
      3. People Meet our members, staff scientists, fellows, leadership, and other Ó³»­´«Ã½ies.
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      1. Disease areas Ó³»­´«Ã½ brings people together to advance the understanding and treatment of disease.
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      2. Research areas Through programs spanning genetics, biology, artificial intelligence (AI), and therapeutic development, Ó³»­´«Ã½ researchers are making discoveries that drive biomedical science forward.
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        1. Patient-partnered research Patients partner with our scientists to accelerate the pace of discovery and find better treatments.
        2. Partnering and licensing We work closely with pharmaceutical, biotech, and technology partners to accelerate the translation of our discoveries.
        3. Publications A catalog of scientific papers published by our members and staff scientists.
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      1. Carlos Slim Center for Health Research The Slim Center aims to bring the benefits of genomics-driven medicine to Latin America, gleaning new insights into diseases with relevance to the region.
      2. Gerstner Center for Cancer Diagnostics The Gerstner Center is developing next-generation diagnostic technology for cancer detection and tracking disease progression.
      3. Klarman Cell Observatory The Klarman Cell Observatory is systematically defining mammalian cellular circuits, how they work together to create tissues and organs, and are perturbed to cause disease.
      4. Merkin Institute for Transformative Technologies in Healthcare The Merkin Institute is supporting early-stage ideas aimed at advancing powerful technological approaches for improving how we understand and treat disease.
      5. Novo Nordisk Foundation Center for Genomic Mechanisms of Disease This center is developing new paradigms and technologies to scale the discovery of biological mechanisms of common, complex diseases, by facilitating close collaborations between the Ó³»­´«Ã½ and the Danish research community.
      6. Eric and Wendy Schmidt Center The EWSC is catalyzing a new field of interdisciplinary research at the intersection of data science and life science, aimed at improving human health.
      7. Stanley Center for Psychiatric Research The Stanley Center aims to reduce the burden of serious mental illness by contributing new insights into pathogenesis, identifying biomarkers, and paving the way toward new treatments.
  • Education and outreach
      1. Art and science connection Explore the connection between art and science and how we bring together artists and Ó³»­´«Ã½ scientists through our artist-in-residence program, gallery exhibitions, and ongoing public conversations.
      2. Ó³»­´«Ã½ Discovery Center Visit our free public educational space that showcases how researchers at the Ó³»­´«Ã½ and their colleagues around the world seek to understand and treat human disease.
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      4. Public programs Discover remarkable stories of scientific progress, and explore the intersections of science, medicine, and society.
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Massive schizophrenia genomics study offers new drug directions.
Dolgin E. Massive schizophrenia genomics study offers new drug directions. Nat Rev Drug Discov. 2014;13(9):641-2. doi:10.1038/nrd4411
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Neuroscience. Myelin--more than insulation.
Fields D. Neuroscience. Myelin--more than insulation. Science. 2014;344(6181):264-6. doi:10.1126/science.1253851
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Image-guided synthesis reveals potent blood-brain barrier permeable histone deacetylase inhibitors.
Seo YJ, Kang Y, Muench L, et al. Image-guided synthesis reveals potent blood-brain barrier permeable histone deacetylase inhibitors. ACS Chem Neurosci. 2014;5(7):588-96. doi:10.1021/cn500021p
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In vivo imaging of histone deacetylases (HDACs) in the central nervous system and major peripheral organs.
Wang C, Schroeder FA, Wey HY, et al. In vivo imaging of histone deacetylases (HDACs) in the central nervous system and major peripheral organs. J Med Chem. 2014;57(19):7999-8009. doi:10.1021/jm500872p
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Candidate genes and functional noncoding variants identified in a canine model of obsessive-compulsive disorder.
Tang R, Noh HJ, Wang D, et al. Candidate genes and functional noncoding variants identified in a canine model of obsessive-compulsive disorder. Genome Biol. 2014;15(3):R25. doi:10.1186/gb-2014-15-3-r25
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Optogenetic mapping of cerebellar inhibitory circuitry reveals spatially biased coordination of interneurons via electrical synapses.
Kim J, Lee S, Tsuda S, et al. Optogenetic mapping of cerebellar inhibitory circuitry reveals spatially biased coordination of interneurons via electrical synapses. Cell Rep. 2014;7(5):1601-1613. doi:10.1016/j.celrep.2014.04.047
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Distinct profiles of myelin distribution along single axons of pyramidal neurons in the neocortex.
Tomassy GS, Berger DR, Chen HH, et al. Distinct profiles of myelin distribution along single axons of pyramidal neurons in the neocortex. Science. 2014;344(6181):319-24. doi:10.1126/science.1249766
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The role of muscle microRNAs in repairing the neuromuscular junction.
Valdez G, Heyer MP, Feng G, Sanes JR. The role of muscle microRNAs in repairing the neuromuscular junction. PLoS One. 2014;9(3):e93140. doi:10.1371/journal.pone.0093140
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A viral strategy for targeting and manipulating interneurons across vertebrate species.
Dimidschstein J, Chen Q, Tremblay R, et al. A viral strategy for targeting and manipulating interneurons across vertebrate species. Nat Neurosci. 2016;19(12):1743-1749. doi:10.1038/nn.4430
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Direct modulation of GFAP-expressing glia in the arcuate nucleus bi-directionally regulates feeding.
Chen N, Sugihara H, Kim J, et al. Direct modulation of GFAP-expressing glia in the arcuate nucleus bi-directionally regulates feeding. Elife. 2016;5. doi:10.7554/eLife.18716
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Ó³»­´«Ã½'s gene-editing technologies—CRISPR-Cas9, base editing, and prime editing—are being tested in more than 25 clinical trials to treat or cure leukemias, rare genetic diseases, high cholesterol, and other conditions.

NIH-funded discoveries from the Ó³»­´«Ã½ are powering nearly 20 clinical trials from companies testing new treatments for diseases like cancer and heart disease.

Ó³»­´«Ã½ developed a technology — partly supported by NIH funding —  that can detect trace amounts of cancer DNA from blood tests and help cancer patients find out their risk of disease recurrence earlier.

Using NIH funding, the Ó³»­´«Ã½â€™s Rare Genomes Project has worked with more than 1,300 families from all 50 U.S. states to diagnose rare genetic diseases.

Ó³»­´«Ã½ Clinical Labs has directly partnered with tens of thousands of cancer patients to analyze their DNA and accelerate research.

During the COVID-19 pandemic, Ó³»­´«Ã½ launched a large-scale diagnostic testing lab that processed over 37 million tests and saved state and federal programs nearly $2 billion.

The Ó³»­´«Ã½'s Cancer Dependency Map helps cancer researchers and drug developers discover therapeutic targets for new cancer treatments.

gnomAD, a large human genetic variant reference database developed by the Ó³»­´«Ã½ with NIH funding, has contributed to over 13 million genetic disease diagnoses since its launch in 2014.

Datasets generated at the Ó³»­´«Ã½ were used to train AlphaGenome, a cutting-edge AI model from Google DeepMind that predicts how genetic variants affect gene regulation.

the FDA granted accelerated approval for a lung cancer drug that was developed with Ó³»­´«Ã½ science and is for patients who otherwise had few treatment options.

David Liu and his team used NIH funding to invent precise gene-editing technologies, including one that may vastly improve access to genetic therapies for patients with rare disease.

NIH-funded Ó³»­´«Ã½ research is shedding new light on the biological roots of many diseases, including Alzheimer’s, Parkinson’s, and Huntington’s disease.

Scientists with Ó³»­´«Ã½â€™s Stanley Center for Psychiatric Research have found key genetic factors for schizophrenia and bipolar disorder.

Ó³»­´«Ã½ scientists are using AI to design new antibiotics and other drugs, predict drug toxicity, and pinpoint genes, molecules, and cells that might be causing disease.

Ó³»­´«Ã½ Clinical Labs has sequenced nearly 900,000 whole human genomes, producing, on average, one human genome sequence every three minutes.

Ó³»­´«Ã½ Clinical Labs developed a new method for genome sequencing that costs 75 percent less than existing methods.

 Ó³»­´«Ã½ Clinical Labs is the largest genome sequencing center of its kind in the world.

Ó³»­´«Ã½ Clinical Labs has partnered with MyOme and Southern Research Institute in Birmingham, Alabama to provide free genetic tests to people in Alabama.

Ó³»­´«Ã½ Clinical Labs has partnered with Mass General Brigham and Everygene to provide no-cost genetic testing to people throughout the US with cardiomyopathy, a disorder that can cause sudden cardiac death.

Ó³»­´«Ã½ Clinical labs and Mass General Brigham used data from NIH’s All of Us program to develop a genetic test that predicts risk of eight different heart conditions. This test is now available to patients.

Thanks to NIH funding, Ó³»­´«Ã½ Clinical Labs is collaborating with scientists across the U.S. to sequence DNA from tens of thousands of children with cancer and birth defects to study common biological pathways.

Ó³»­´«Ã½ Clinical Labs holds the world record for fastest DNA sequencing, completing whole genome sequencing and analysis in less than four hours at their facility in Burlington, Massachusetts.

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