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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

Cancer biologist Andrea Ventura studies non-coding RNAs in cancer and development

… One of the most exciting discoveries of the last two decades has been the identification of a large number of non-coding RNAs and the realization that they play essential roles in mammalian development and in diseases. Their study and the characterization of their contribution to the pathogenesis of

Computational biologist Ruslan Soldatov develops computational methods to study cell fate decisions and somatic evolution in normal tissues and cancer.

… The Soldatov Lab aims to characterize the mechanisms of cell fate decisions that coordinate tissue function and quantify how distortions of these mechanisms shape the course of cancer evolution. We are broadly interested in using a large-scale data science approach to study questions related to the organization

Optical engineer Milind Rajadhyaksha studies confocal microscopy for the imaging of cancer, technology development, and translational and clinical studies in skin and head and neck cancers.

… I am a mechanical and optical engineer and principal investigator in the Optical Imaging Laboratory in the Dermatology Service. My research focuses on creating novel confocal microscopes and endoscopes for imaging skin and head and neck cancers, and translating this technology to clinical applications

Molecular biologist Thomas Kelly studies regulatory mechanisms that control DNA replication during the cell cycle of eukaryotic cells.

… My long-term interest is to understand how the cellular genome is duplicated during the cell cycle. In the course of growth and division, eukaryotic cells duplicate their genomes with remarkable fidelity. The precision of this process depends in large measure upon stringent regulatory mechanisms that

Physician-scientist Christine Iacobuzio-Donahue studies the genomics and cell biology of pancreatic and other solid tumors as it relates to subclonal evolution, tumor progression, and metastasis.

… Our lab investigates the fundamental evolutionary mechanisms underlying metastasis using pancreatic cancer as our model tumor type. Metastasis is the result of a series of biological hurdles subject to Darwinian selection including the birth of metastasis-enabled cells within a heterogeneous primary

Physician-scientist Vladimir Ponomarev focuses on developing reporter genetic systems for specific applications such as sequential in vivo imaging studies in cancer biology, cancer immunotherapy, and radiation sciences.

… I am a physician-scientist who focuses on the development of new multi-modal imaging approaches for specific applications, such as sequential in vivo imaging studies in cancer biology, cancer immunotherapy, and radiation sciences. Vladimir Ponomarev, MD, PhD Office phone 646-888-2213

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 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

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