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Displaying 21 to 30 of 46 results for cell biology

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  • Michael Edidin Lab

    The Michael Edidin Lab studies membrane dynamics and organization in cells from lymphocytes to epithelial cells using biochemistry, biophysics (especially fluorescence methods), cell biology, biochemistry and immunology. We are interested in transplantation immunology, particularly in the cell biology of class I MHC molecules, and are working to understand the relationship between plasma membrane biophysics and antigen presentation by MHC molecules. We are currently studying the clustering of T cell receptors for the antigen TCR.

    Research Areas: biochemistry, cell biology, membrane biophysics, MHC molecules, antigens, T cells

    Principal Investigator

    Michael Edidin, Ph.D.

    Department

    Medicine

  • Miho Iijima Laboratory

    The Miho Iijima Laboratory works to make a further connection between cells' signaling events and directional movement. Our researchers have identified 17 new PH domain-containing proteins in addition to 10 previously known genes in the Dictyostelium cDNA and genome database. Five of these genes contain both the Dbl and the PH domains, suggesting these proteins are involved in actin polymerization. A PTEN homologue has also been identified in Dictyostelium that is highly conserved with the human gene. We are disrupting all of these genes and studying their roles in chemotaxis.

    Research Areas: cell biology, chemotaxis, genomics

    Lab Website

    Principal Investigator

    Miho Iijima, M.S., Ph.D.

    Department

    Cell Biology

  • Mikhail Pletnikov Laboratory

    The Mikhail Pletnikov Laboratory is interested in the neurobiology of neurodevelopmental diseases such as schizophrenia and autism. The major focus of our laboratory is to evaluate how adverse environmental factors and vulnerable genes interact to affect brain and behavior development. We address these experimental questions by using methods of cell and molecular biology, neuroimmunology, neurochemistry, psychopharmacology and developmental psychobiology. The current projects in our laboratory are: (1) Genetic risk factors in neuron-astrocyte interaction during neurodevelopment, (2) Gene-environment interplay in the pathogenesis of psychiatric conditions, and (3) The neuroimmune interactions in abnormal neurodevelopment

    Research Areas: autism, immunology, neurobiology, cell biology, neurodevelopment, developmental psychobiology, schizophrenia, pharmacology, chemistry, molecular biology

  • Neuroengineering and Biomedical Instrumentation Lab

    The mission and interest of the neuroengineering and Biomedical Instrumentation Lab is to develop novel instrumentation and technologies to study the brain at several levels--from single cell to the whole brain--with the goal of translating the work into practical research and clinical applications.

    Our personnel include diverse, independent-minded and entrepreneurial students, post docs, and research faculty who base their research on modern microfabrication, stem cell biology, electrophysiology, signal processing, image processing, and integrated circuit design technologies.

    Research Areas: stem cells, imaging, brain, electrophysiology, neuroengineering, biomedical engineering, neuroscience

    Lab Website

    Principal Investigator

    Nitish Thakor, Ph.D.

    Department

    Biomedical Engineering

  • Pablo Iglesias Lab

    Investigators in the Pablo Iglesias Lab use analytic tools from control systems and dynamical systems to study cell biology, including biological signal transduction pathways. Our research interests include the ways cells interpret directional cues to guide their motion, regulatory mechanisms that control cell division, and the sensing and actuation that enable cells to maintain lipid homeostasis.

    Research Areas: homeostasis, cytokinesis, cell biology, chemotaxis, cell division

    Lab Website

    Principal Investigator

    Pablo Iglesias, Ph.D.

    Department

    Biomedical Engineering

  • Rong Li Lab

    Research in the Rong Li Lab aims to better understand the fundamental laws that regulate the behavior and interactions of cellular systems. Our team is currently examining how cells consolidate their damaged proteins and prevent them from spreading freely — work aimed at understanding how to better treat diseases such as Alzheimer’s and ALS. We are also applying insights gained through basic research to better understand diseases such as cancer and polycystic kidney disease.

    Research Areas: cell biology, ALS, kidney diseases, cancer, cellular dynamics, molecular biology, Alzheimer's disease

    Lab Website

    Principal Investigator

    Rong Li, M.S., Ph.D.

    Department

    Cell Biology

  • Ryuya Fukunaga Lab

    The Fukunaga Lab uses multidisciplinary approaches to understand the cell biology, biogenesis and function of small silencing RNAs from the atomic to the organismal level.

    The lab studies how small silencing RNAs, including microRNAs (miRNAs), small interfering RNAs (siRNAs) and piwi-interacting RNAs (piRNAs), are produced and how they function. Mutations in the small RNA genes or in the genes involved in the RNA pathways cause many diseases, including cancers. We use a combination of biochemistry, biophysics, fly genetics, cell culture, X-ray crystallography and next-generation sequencing to answer fundamental biological questions and also potentially lead to therapeutic applications to human diseases.

    Research Areas: biophysics, biochemistry, cell biology, cell culture, genomics, RNA

    Principal Investigator

    Ryuya Fukunaga, Ph.D.

    Department

    Biological Chemistry

  • Sandra Gabelli Lab

    The Gabelli lab research is focused on structural, mechanistic and functional aspects of enzyme activation that play a role in the biology of human diseases such as cancer, parasitic infection and cardiovascular disease. Their work seeks to:

    1. Understand how molecular events at the recognition level coordinate and trigger events in the cells
    2. Translate structural and mechanistic information on protein:protein interactions at the cytoplasmic level into preventive and therapeutic treatment for human disease.

    To achieve a comprehensive understanding, they are studying cytoplasmic protein-protein interactions involved in regulation of pathways such as PI3K and Sodium Voltage gated channels. Their research integrates structural biology and chemical biology and it is focused on drug discovery for targeted therapies.

    Research Areas: biochemistry, chemical biology, cell biology, structural biology, proteomics, cancer, diarrhea, diabetes, drugs, cellular signaling, inflammation, pharmacology

    Lab Website

    Principal Investigator

    Sandra Gabelli, Ph.D.

    Department

    Medicine

  • Sarbjit Saini Lab

    The research in the Sarbjit Saini Laboratory focuses on IgE receptor biology and IgE receptor-mediated activation of blood basophils and mast cells. We have examined the role of IgE receptor expression and activation in allergic airways disease, anaphylaxis and chronic urticaria. Our research has been supported by the NIH, American Lung Association and the AAAAI. Our current research interests have focused mechanisms of diease in allergic asthma, allergic rhinitis and also translational studies in chronic idiopathic urticaria.

    Research Areas: anaphylaxis, airway diseases, cell biology, asthma, allergies, chronic idiopathic urticaria

    Principal Investigator

    Sarbjit Saini, M.D.

    Department

    Medicine

  • Sean T. Prigge Lab

    Current research in the Sean T. Prigge Lab explores the biochemical pathways found in the apicoplast, an essential organelle found in malaria parasites, using a combination of cell biology and genetic, biophysical and biochemical techniques. We are particularly focused on the pathways used for the biosynthesis and modification of fatty acids and associated enzyme cofactors, including pantothenate, lipoic acid, biotin and iron-sulfur clusters. We want to better understand how the cofactors are acquired and used, and whether they are essential for the growth of blood-stage malaria parasites.

    Research Areas: biochemistry, enzymes, immunology, apicoplasts, malaria, molecular microbiology

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