• Picture of Dr. Ron Diskin

    Dr. Ron Diskin

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    Viral glycoproteins - HIV and others
    BBSome structure and function

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  • Picture of Dr. Michal Rivlin

    Dr. Michal Rivlin

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    Direction selective circuits in the retina and their adaptive properties.
    Dynamic computations in retinal ganglion cells.
    Mechanisms of retinal adaptation.
    Information flow along the visual pathway and interpretation of retinal adaptation by higher order visual structures.

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  • Picture of Dr. Igor Ulitsky

    Dr. Igor Ulitsky

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    Roles of long noncoding RNAs in gene regulation
    Functions of long noncoding RNAs in establishing cell identify
    Sequence determinants in long noncoding RNAs
    Evolution of intergenic regions in vertebrates
    Subcellular localization determinants in long RNAs

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  • Prof. Ran Raz

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    Complexity Theory: In particular: Boolean circuit complexity, arithmetic circuit complexity, communication complexity, probabilistically checkable proofs, quantum computation and communication, randomness and derandomization.
  • Picture of Dr. Shalev Itzkovitz

    Dr. Shalev Itzkovitz

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    Design Principles of mammalian tissues
    Combining mathematical models and sensitive single-molecule measurements to study how single cells interact in tissues to jointly bring about physiological goals

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  • Picture of Prof. Uri Alon

    Prof. Uri Alon

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    Combining theoretical and experimental methods to discover design principles of biological circuits
    Systems level analysis of gene regulation networks, with E. coli as a model system.
    Systems Immunology
    Collaboration with:  Nir Friedman
    Evolution

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  • Prof. Yaron Lipman

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    Geometric modeling, geometry processing, shape analysis, computer graphics, Discrete differential geometry

  • Prof. Zohar Komargodski

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    Particle Physics and Quantum Field Theory
  • Picture of Prof. David Cahen

    Prof. David Cahen

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    Bio molecular and molecular (opto)electronics
    Collaboration with:  M. SHEVES, I.PECHT, L. Kronik,A.Vilan, R.Naaman, C.Sukenik (Bar Ilan), A.Kahn (Princeton), N.Koch (Humboldt), M.Tornow, J.Gooding (UNSW), H.Zuilhof (Wageningen)
    Understanding charge transport across organic molecules; with A. Vilan
    Understanding charge transport across proteins
    Proteins as dopable electronic materials
    Hybrid Organic/Inorganic, Molecular/Non-Molecular materials; fundamentals and impications for devices, e.g. solar cells
    Solar Energy: New materials and concepts, and understanding of Photovoltaics
    Collaboration with:  G. Hodes,D. Oron, S. Cohen, K. Gartsman, A. Kahn (Princeton)
    Molecular electronics for solar cells. The importance of molecules for inversion cells.
    Assessing possibilities and limitations of solar to electrical and chemical energy conversion
    Photovoltaic effect at Inorganic/Organic Hybrid Interfaces
    Extremely Thin Absorber Solar Cells

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  • Picture of Prof. David Harel

    Prof. David Harel

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    Visual formalisms, software engineering, biological modeling, visualization.

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