Research areas

Through programs spanning genetics, biology, artificial intelligence (AI), and therapeutic development, Ó³»­´«Ã½ researchers are making discoveries that drive biomedical science forward.

AI in biomedical research

Artificial intelligence (AI) and machine learning

At the Ó³»­´«Ã½, breakthroughs in AI converge with cutting-edge biomedicine to drive advances in both fields.

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X-ray co-crystal structure of B52 compound (cyan) binding and inhibiting Cyclophilin D protein

Chemical biology and therapeutic science

Through innovative approaches to chemistry, CBTS scientists probe biological processes, explore chemical structures, and modify genomes and proteomes in unprecedented ways.

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Intestinal tissue infected with Cryptosporidium, with arrows pointing to the parasites.

Genome regulation, cellular circuitry, and epigenomics

Ó³»­´«Ã½ scientists are charting the vast landscape of molecular elements that define and regulate the cell.

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T Regulatory Cells. Scanning electron microscope image of T regulatory cells (red) interacting with antigen-presenting cells (blue). T regulatory cells can suppress responses by T cells to maintain homeostasis in the immune system.

Immunology

Researchers across Ó³»­´«Ã½ are defining the immune cells and pathways that regulate physiologic and pathologic processes.

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Manhattan plot is a scatter plot used to visualize the results of genome-wide association studies (GWAS)

Medical and population genetics

An array of scientists here are collaborating to establish genomic variations' roles in human traits and disorders.

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Transmission electron microscope image of a mitochondria.

Metabolism

Our researchers aim to decipher the metabolic components of rare and common human diseases.

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