• Prof. Yoram Salomon

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    Anti-cancer treatments :
    Development of novel bacteriochlorophyll-based drugs for photochemotherapy.
    Boron neutron capture therapy.
    Reactive oxygen species, their generation by bacteriochlorophyll and light, their role in signal transduction and mechanisms of cell and tumor destruction.
    Vascular biology and vascular destruction.
  • 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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  • Picture of Prof. Menachem Rubinstein

    Prof. Menachem Rubinstein

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    Role of oxidative stress in type 2 diabetes
    Collaboration with:  Mike Walker
    Metabolic diseases
    CAR-T optimization
    Collaboration with:  Zelig Eshhar
    Gene therapy in cancer
    Role of C/EBPbeta in multidrug resistance
    Collaboration with:  Chiara Riganti (Univ. Torino, Italy)
    Cancer Research
    Attenuation of chemotherapy side effects
    Collaboration with:  Gillian Dank (Koret School of Veterinary Medicine of the Hebrew University of Jerusalem)
    Cancer Research

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  • Prof. Israel Rubinstein

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    Functional Nanomaterials
    Self-assembled supramolecular nanostructures on surfaces (with A. Vaskevich, H. Leader)
    Nanoparticle organization on surfaces using coordination layer-by-layer assembly (with A. Vaskevich, H. Leader)
    Plasmonic systems based on metal nano-island films prepared by evaporation/annealing (with A. Vaskevich)
    Application of metal nanoisland films in chemical and biological sensing using localized surface plasmon resonance spectroscopy (with A. Vaskevich)
  • Picture of Prof. Varda Rotter

    Prof. Varda Rotter

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    Molecular mechanisms controlling the expression of p53 in normal cells and its deregulation in cancer cells
    Involvement of p53 in cell differentiation and apoptosis: <I>in vivo</I> and in vitro models.
    Cellular proteins that specifically complex with the p53 protein.
    Cellular proteins that are induced upstream or downstream to the p53 protein following genotoxic stress.

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  • Picture of Prof. Vered Rom-Kedar

    Prof. Vered Rom-Kedar

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    Hamiltonian systems - theory and applications
    Collaboration with:  M. Radnovic, A. Rapoport, E. Shlizerman, D. Turaev
    Near-integrable systems
    The Boltzmann ergodic hypothesis and soft billiards.
    Chaotic scattering.
    Resonant surface waves.
    Perturbed nonlinear Schrodinger equation.
    Mathematical models of the hematopoietic system and their medical implications
    Collaboration with:  R. Malka, E. Shochat.
    Chaotic mixing of fluid flows
    Collaboration with:  R. Aharon, H. Gildor

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  • Picture of Dr. Michal Rivlin

    Dr. Michal Rivlin

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    Mechanisms underlying the computation of motion direction in the retina.
    Dynamic computations in retinal circuits.
    How do retinal targets integrate and interpret the visual signal?
    Role of dopamine in retinal processing.

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  • Picture of Prof. Michel Revel

    Prof. Michel Revel

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    Applications of IL-6 Chimera and Interferon-beta in neurology, hematopoiesis, and oncology.
    Collaboration with:  J. Chebath
    Interleukin-6 Chimera, a superactivator of the gp130 receptor system: role in nerve myelination, neuroprotection and in the development of neuro-glial cells from embryonic tissues and stem cells.
    Collaboration with:  J. Chebath
    Transdifferentiation of neural crest cell derived melanoma into myelinating Schwann cell. Genes controlling cell growth, differentiation, melanogenesis and synthesis of myelin proteins.
    Collaboration with:  J. Chebath

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