• Picture of Dr. Nir London

    Dr. Nir London

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    Discovery and design of specific covalent inhibitors
    Covalent personalized medicine for cancer
    Computational ligand/drug discovery

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  • Picture of Prof. Zvi Livneh

    Prof. Zvi Livneh

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    DNA damage tolerance by error-prone DNA polymerases
    DNA damage tolerance by error-prone DNA polymerases in embryonic stem cells
    DNA damage tolerance by error-prone DNA polymerases under hypoxia
    Biomarkers for risk assessment, prevention and early detection of cancer
    DNA repair biomarkers for risk assessment, prevention and early detection of lung cancer
    DNA repair biomarkers for risk assessment, prevention and early detection of colorectal cancer
    DNA repair biomarkers for risk assessment, prevention and early detection of pancreatic cancer

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  • Picture of Dr. Yoav Livneh

    Dr. Yoav Livneh

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    Interoception - perception of internal bodily signals
    Cortical computations for modulation of bodily physiology
    Continuous updating in the brain-body loop

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  • Prof. Yaron Lipman

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    Geometric modeling, geometry processing, shape analysis, computer graphics, Discrete differential geometry
  • Picture of Prof. Koby Levy

    Prof. Koby Levy

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    Dynamics, entropy and diffusion in biomoelcular systems
    The mechanisms of protein-DNA recognition: understanding the driving forces for fast assembly

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  • Dr. Emmanuel Levy

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    Design of protein-based super assemblies
    Collaboration with:  Jonathan Doye (Oxford) Samuel Safran (WIS)
    New methods to detect and measure protein interactions
    Computational analyses of protein structure
  • Picture of Prof. Gil Levkowitz

    Prof. Gil Levkowitz

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    hypothalamus
    Developmental neurobiology
    Molecular neurophysiology
    Genetics
    Neuroendocrinology

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  • Picture of Prof. Shimon Levit

    Prof. Shimon Levit

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    Full vector path integrals for light propagation in dielectrics.
    Resonant scattaring off photonic slabs
    Variational Approach to Tunneling Dynamics.
    Application to Hot Superfluid Fermi Systems.
    Application to spontaneous and induced fission
    Tunneling of hot bosonic systems

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  • Picture of Prof. Sima Lev

    Prof. Sima Lev

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    Signaling networks in cancer development and metastasis
    Collaboration with:  Thomas Karn, Eytan Ruppin, Gordon Mills, Flavio Maina, Frank Westermann, Yosef Yarden
    Tumorigenic signaling networks in triple negative breast cancer (TNBC) subtypes
    Combination therapy, drug resistance, and cancer stem cells
    Ferroptosis and TNBC therapy
    Receptor Tyrosine Kinases (RTKs) (AXL, cMet, EGFR) and non-RTKs (PYK2, FAK) signaling in TNBC
    Epithelial-Mesenchymal Transition (EMT) & TNBC metastasis

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  • Picture of Dr. Michal Leskes

    Dr. Michal Leskes

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    Our research is focused on correlating structure and function in energy storage and conversion materials by advanced magnetic resonance methods. We aim to understand how the composition of materials affects their functionality and how we can control their functionality through deviation from ideal stoichiometry. In particular we are interested in materials for energy storage, such as Li and Na ion batteries, and in the role interfacial chemistry plays in the functionality of electrode and electrolyte materials. We use a wide range of magnetic resonance techniques: solid state NMR, Electron Paramagnetic Resonance (EPR) and Dynamic Nuclear Polarization (DNP). Additionally we investigate the process of polarization transfer from electron spins to nuclear spins in solids DNP utilizing external and internal polarization agents. For more detailed information, please click below and see our home page.

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