• 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
  • Picture of Prof. Abraham Arcavi

    Prof. Abraham Arcavi

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    Research on cognitive characteristics of non academically oriented math students.
    Collaboration with:  Dr. Ronnie Karsenty
    Design of curriculum materials as a research based activity
    Collaboration with:  Dr. Sue Magidson
    Long-term design of a new curriculum for grades 10, 11 and 12 for non-academically oriented students.
    Collaboration with:  Dr. Nurit Hadas

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  • 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. David Milstein

    Prof. David Milstein

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    Organometallic chemistry and catalysis
    Bond activation by electron-rich transition metal complexes.
    Rational design of homogeneous catalysis and synthetic methodology based on transition metal complexes.
    Impact of molecular order on catalysis and reactivity.
    Generation and stabilization of elusive (potentially biologically active) molecules

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  • Picture of Prof. Achi Brandt

    Prof. Achi Brandt

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    Multi-level computational methods, scientific computation.

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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. Meir Wilchek

    Prof. Meir Wilchek

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    Study and application of molecular biorecognition
    Avidin-biotin system: Studies of the strong binding using chemical, physical and biological methods; new applications of the system.
    Affinity chromatography: Studies to improve purification of protein by developing new carriers, new activation methods and new principles.
    Affinity therapy: Development of methods to couple drugs and toxins to biological carriers, such as antibodies, and their delivery to target cells.

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  • Prof. Israel Silman

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    Localization and anchorage to the plasma membrane of acetylcholinestera.
    Regulation of folding and assembly of acetylcholinesterase.
    Three-dimensional structure of acetylcholinesterase and acetylcholinesterase-anticholinesterase complexes.
  • 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. Adam Schwimmer

    Prof. Adam Schwimmer

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    String theory.
    Conformal field theory.
    Dynamics of gauge theory.

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