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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

Molecular biologist John Maciejowski studies the causes of complex chromosome rearrangements and the patterns of hypermutation that shape cancer genomes.

… The nuclear envelope is a regulated membrane barrier that separates the nucleus from the cytosol in eukaryotes. Although the NE is often depicted as a static barrier, new research has identified conditions where nuclear envelope rupturing causes a loss of compartmentalization. Nuclear envelope ruptures

The Vardhana Lab studies how nutrient availability, uptake and metabolism regulates host immune responses during cancer development and immunotherapy.

… The Vardhana lab explores how metabolites regulate immune cell homeostasis, particularly within tumors.  We use a combination of traditional immunology, synthetic biology, metabolomics, and bioinformatics to answer fundamental biological questions about the regulation of immune responses with the goal

The Brown Lab studies how the tissue environment shapes immune cell fate and function during early life immune development, inflammation, and cancer.

… At the Brown Lab, we’re studying how signals from the tissue environment shape the fate and function of immune cells and the mechanisms by which the immune system reciprocally regulates tissue homeostasis and host immunity. At the heart of an immune response are dendritic cells, sentinels of the immune

Molecular biologist Prasad Jallepalli studies the mechanisms that ensure accurate chromosome transmission in human cells.

… Our laboratory is interested in how human cells accurately duplicate and transmit their chromosomes during each round of division. Prasad Jallepalli, MD, PhD Member Professor MD, PhD, Johns Hopkins University School of Medicine Achievements Phi Beta Kappa, Harvard University (1992) M.D./Ph.D. Fellow,

Molecular biologist Iestyn Whitehouse investigates chromatin structure and the function of ATP-dependent chromatin remodelling enzymes.

… The Whitehouse lab is broadly interested in understanding how chromatin functions in the regulation of cellular processes such as DNA replication, gene transcription and epigenetics. We focus on understanding basic mechanisms and use a combination of biochemical, molecular biological and genomics approaches

The Peled lab focuses on cancer immunotherapy.

… Cancer immunotherapy hold tremendous promise, but durable responses in most disease types are achieved in only a minority of patients. For example, allogeneic hematopoietic-cell transplantation (allo-HCT) is a curative treatment for hematological malignancies, but its success is limited by relapse, graft-vs-host

Physician-scientist Viviane Tabar focuses on stem cells as tools for brain repair and for modeling brain cancer.

… I am a neurosurgeon-scientist and Chair of the Department of Neurosurgery. I have clinical expertise in the surgical management of brain tumors such as complex gliomas, meningiomas, and skull base tumors. The lab is focused on two major themes: harnessing the potential of human pluripotent stem cells

The Kushal Dey lab focuses on developing machine learning models and computational pipelines that integrate genomic and epigenomic data.

… The Kushal Dey Lab builds statistical and machine learning models that integrate genetic and genomic data to prioritize variants, genes, and cell types, and to decode the causal functional architecture underlying heritable complex diseases — including immune-related diseases, like Alzheimer’s and inflammatory