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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.
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      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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In Silico Labeling: Predicting Fluorescent Labels in Unlabeled Images.
Christiansen EM, Yang SJ, Ando M, et al. In Silico Labeling: Predicting Fluorescent Labels in Unlabeled Images. Cell. 2018;173(3):792-803.e19. doi:10.1016/j.cell.2018.03.040
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Systematic morphological profiling of human gene and allele function via Cell Painting.
Rohban MH, Singh S, Wu X, et al. Systematic morphological profiling of human gene and allele function via Cell Painting. Elife. 2017;6. doi:10.7554/eLife.24060
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Expansion Microscopy: Protocols for Imaging Proteins and RNA in Cells and Tissues.
Asano SM, Gao R, Wassie AT, Tillberg PW, Chen F, Boyden ES. Expansion Microscopy: Protocols for Imaging Proteins and RNA in Cells and Tissues. Curr Protoc Cell Biol. 2018;80(1):e56. doi:10.1002/cpcb.56
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Novel fluorescent cycloheximide derivatives for the imaging of protein synthesis.
Paoletti F, Ainger K, Donati I, et al. Novel fluorescent cycloheximide derivatives for the imaging of protein synthesis. Biochem Biophys Res Commun. 2010;396(2):258-64. doi:10.1016/j.bbrc.2010.04.075
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Unbiased discovery of in vivo imaging probes through in vitro profiling of nanoparticle libraries.
Kelly KA, Shaw SY, Nahrendorf M, et al. Unbiased discovery of in vivo imaging probes through in vitro profiling of nanoparticle libraries. Integr Biol (Camb). 2009;1(4):311-7. doi:10.1039/b821775k
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Printing proteins as microarrays for high-throughput function determination.
MacBeath G, Schreiber SL. Printing proteins as microarrays for high-throughput function determination. Science. 2000;289(5485):1760-3.
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Cell Painting, a high-content image-based assay for morphological profiling using multiplexed fluorescent dyes.
Bray MA, Singh S, Han H, et al. Cell Painting, a high-content image-based assay for morphological profiling using multiplexed fluorescent dyes. Nat Protoc. 2016;11(9):1757-74. doi:10.1038/nprot.2016.105
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Photoswitching mechanism of cyanine dyes.
Dempsey GT, Bates M, Kowtoniuk WE, Liu DR, Tsien RY, Zhuang X. Photoswitching mechanism of cyanine dyes. J Am Chem Soc. 2009;131(51):18192-3. doi:10.1021/ja904588g
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Small-molecule fluorophores to detect cell-state switching in the context of high-throughput screening.
Wagner BK, Carrinski HA, Ahn Y hoon, et al. Small-molecule fluorophores to detect cell-state switching in the context of high-throughput screening. J Am Chem Soc. 2008;130(13):4208-9. doi:10.1021/ja077656d
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The binding of fluorophores to proteins depends on the cellular environment.
Kim YK, Lee JS, Bi X, et al. The binding of fluorophores to proteins depends on the cellular environment. Angew Chem Int Ed Engl. 2011;50(12):2761-3. doi:10.1002/anie.201007626
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In March of 2020, Ó³»­´«Ã½ converted a clinical genetics processing lab into a large-scale COVID-19 testing facility in less than two weeks.

We've screened more than 1,275 cancer cell lines as part of the Cancer Dependency Map (DepMap).

Ó³»­´«Ã½ Genomics Platform sequences a whole human genome every four minutes.

More than 11,000 individuals living with cancer in the United States and Canada have partnered with Count Me In to share their experiences and help accelerate cancer research.

The Drug Repurposing Hub is one of the most comprehensive and up-to-date biologically annotated collections of FDA-approved compounds in the world. Researchers anywhere can explore more than 6,000 drugs in the hub and search for possible new uses for them to jump-start new drug discovery.

In 2021, our sustainability efforts sent more than 80 percent of waste from the Genomics Platform to either a recycling facility or to an incineration plant that generates electricity.

Through Ó³»­´«Ã½'s Scientists in the Classroom program, Ó³»­´«Ã½ researchers visit every 8th grade classroom in Cambridge each year to talk about genetics and evolution.

Every summer, 18 high school students spend six weeks at Ó³»­´«Ã½ working side-by-side with mentors on cutting-edge research.

In November 2022, Ó³»­´«Ã½â€™s Genomics Platform sequenced its 500,000th whole human genome, a mere four years after sequencing its 100,000th.

By the end of 2022, Ó³»­´«Ã½â€™s COVID-19 testing lab had processed more than 37 million tests.

Working with Addgene, Ó³»­´«Ã½ has shared CRISPR genome-editing reagents with researchers at more than 3,200 institutions in 76 countries.

The NeuroGAP-Psychosis project, a collaboration between the Stanley Center for Psychiatric Research and Harvard T.H. Chan School of Public Health to study the genetics of severe mental illness, has recruited more than 42,000 participants in Ethiopia, Kenya, Uganda, and South Africa.

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