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Computational biologist Quaid Morris uses artificial intelligence techniques and develops machine learning algorithms to study gene regulation, cancer evolution, clinical informatics, and other topics in systems biology.

… Our lab uses machine learning and artificial intelligence to do biomedical research, focusing on cancer evolution, gene regulation, clinical informatics, and gene function prediction. A key interest is the role of RNA-binding proteins (RBPs) in post-transcriptional regulation. We focus on developing

Physician-scientist Alan Hanash studies transplant immunology and immune-mediated mechanisms of tissue damage and regeneration.

… Alan Hanash is an Associate Member of Memorial Sloan Kettering and an Attending Physician on the Adult Bone Marrow Transplant Service in the Department of Medicine. Dr. Hanash’s research focuses on the immunology of hematopoietic transplantation and immune-mediated mechanisms of tissue damage and regeneration

Cancer biologist and pediatric oncologist Alex Kentsis leads research in the functional proteomics and molecular pharmacology of refractory childhood cancers.

… We study the biology of cancers that affect children and young adults ranging from embryonal tumors in infants, leukemias and brain tumors in children, and sarcomas in young adults. Scientists in our group use inter-disciplinary experimental tools as they work to understand the fundamental causes of

The Goldberg laboratory focuses on structural and biochemical characterization of intracellular vesicle transport.

… Our research group studies the mechanisms of protein trafficking and quality control at the endoplasmic reticulum (ER) in mammalian cells. A major focus of research is on the COPII protein machinery responsible for synthesis of ER-derived transport vesicles. We are exploring the mechanisms utilized by

The Pertsinidis laboratory uses single-molecule approaches to understand gene transcription and the function of complex macromolecular machines inside live cells.

… Our mission is the development of a “new” generation of optical imaging technologies to enable advances in two hitherto difficult-to-investigate areas: the real-time analysis of macromolecular interactions and motions at the nanometer scale in vivo and the three-dimensional architecture of complex molecular

Computational biologist Christina Leslie focuses on developing machine learning algorithms for computational and systems biology.

… Our lab develops novel computational methods to study cellular biological systems from a global and data-driven perspective. We seek to exploit diverse, high-throughput functional and genomic data to understand the molecular networks underlying fundamental cellular processes, including regulation of

The Pavletich laboratory studies the structural biology of pathways that control cell growth and maintain the integrity of the genome.

… Our research group is interested in understanding, at the structural and mechanistic levels, the maintenance of genomic integrity and the control of cell growth, both of which figure prominently in cancer. In the area of growth control, our recent work is focused on the mTOR pathway that controls multiple

The Tulpule lab studies how cells compartmentalize critical cellular processes with a focus on biomolecular condensates in cancer.

… The Tulpule Lab is interested in a long-standing question in cell biology: how do cells organize and compartmentalize critical cellular processes within the crowded and heterogeneous intracellular space? We focus on an emerging set of self-assembling, protein-based structures known as biomolecular condensates

My research is focused on cellular and molecular mechanisms that control the differentiation, maintenance, and physiological functions of macrophages and monocytes and their roles in tissue homeostasis and disease processes.

… Over the past ten years, we have investigated the developmental origin and homeostasis of macrophages and the related cell types monocytes and dendritic cells. These cells play a major role in diverse types of cancer and can either restrain or promote cancer progression and metastasis. The Geissmann

The Hadjantonakis laboratory studies pluripotency and cell fate specification, tissue patterning and morphogenesis, in mammalian embryos and stem cell-derived embryo models.

… Cancer is a condition arising when cells undergo an identity crisis.  Understanding of how cells control their identity, and how they assemble into tissues with normal organization and function during embryonic development provides the essential blueprint for gaining insights into the fundamental biological