• Picture of Prof. Adam Schwimmer

    Prof. Adam Schwimmer

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    String theory.
    Conformal field theory.
    Dynamics of gauge theory.
  • Picture of Prof. Michal Schwartz

    Prof. Michal Schwartz

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    The cross-talk between the immune and nervous systems – autoimmunity as a mechanism of tissue repair: Molecular, cellular, physiological and behavioral aspects.
    Immunological aspects of neuronal loss in neurodegenerative and mental disorders (Alzheimer’s, ALS, Huntingdon, Glaucoma).
    Spinal cord injury and repair
    Development of vaccination for neurodegenerative disorders.
    Neurogenesis (stem cells) and inflammation in the CNS.

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  • Picture of Prof. Oren Schuldiner

    Prof. Oren Schuldiner

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    A genetic dissection of developmental axon regeneration
    Molecular mechanisms of neuronal remodeling during development: Developmental axon pruning in Drosophila
    The role of cell-cell interaction in regulating developmental axon pruning
    The role of intracellular signaling in regulating developmental axon pruning
    The role of trafficking in regulating developmental axon pruning
    Glia and their effect on neuronal growth and remodeling

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  • Picture of Prof. Maya Schuldiner

    Prof. Maya Schuldiner

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    Uncovering tethers, functions and regulators of membrane contact sites in yeast
    Mitochondria-ER contact sites
    Peroxisome-Lipid Droplet contact sites
    Nucleus-Mitochondria contact sites
    The proteome of contact sites
    Golgi contact sites
    Targeting and translocation to Organelles
    Uncovering a role for the Ssh1, the alternative, translocon in yeast
    Deciphering targeting of proteins to mitochondria
    Targeting of membrane proteins to peroxisomes
    Targeting of low-hydrophobicity SS proteins to the ER
    Uncovering new peroxisomal proteins and their functions
    Collaboration with:  Dr. Einat Zalckvar
    Metabolite transport across the peroxisome membrane
    Peroxisome contact sites
    Peroxisome quality control
    Peroxisome targeting
    New peroxisomal enzymes and their functions
    Novel methodologies for systematic exploration of yeast organelle protein functions
    Creation of versatile yeast libraries
    High throughput electron microscopy techniques
    Translocation sensors

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  • Picture of Prof. Elad Schneidman

    Prof. Elad Schneidman

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    Biological networks
    Decision making and learning
    Animal swarming and collective behavior
    Computational Neuroscience
    Neural Coding
    Information and noise in neural populations
    Decoding neural activity
    Network organization and design
    Natural Scenes

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  • Picture of Prof. Avigdor Scherz

    Prof. Avigdor Scherz

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    Quantification of atoms, groups and molecules electronegati using metal substituted bacteriochlorophylls and application to chemical reactivity.
    Resolving the forces which drive membrane protein assembly.
    The mechenism behind generation of reactive oxygen species (ROS) by illuminating novel bacteriochlorophyll derivatives and their application in photodynamic therapy (PDT) of tumors.

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  • Picture of Prof. Gideon Schechtman

    Prof. Gideon Schechtman

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    Convex geometry
    Functional analysis and geometry of Banach spaces
    Probability

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  • Picture of Prof. Jacob Sagiv

    Prof. Jacob Sagiv

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    Supramolecular Architecture at Interfaces (with R. Maoz)
    Supramolecular Surface Chemistry: Bottom-up Nanofabrication using Planned Self-Assembling Mono- and Multilayer Systems (with R. Maoz)
    Constructive Lithography: Contact Electrochemical Surface Patterning on Lateral Length Scales from Nanometer to Centimeter (with R. Maoz)
  • Picture of Prof. Dov Sagi

    Prof. Dov Sagi

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    Human vision, with an emphasis on processes involved in image segmentation, learning, and memory.

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  • Picture of Prof. Boris Rybtchinski

    Prof. Boris Rybtchinski

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    Organic self-assembly: nanoreactors and nanocapsules
    Solar fuels: photoinduced water splitting for hydrogen production
    Artificial photosynthesis: light-harvesting materials for solar energy conversion

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